CN220189181U - Full laminating device that MiniLED and micro LED directly show and use - Google Patents

Abstract

The utility model provides a full-laminating device for direct display application of a MiniLED and a MicroLED, which relates to the field of laminating of MiniLED and a MicroLED direct display screen, and comprises the following components: a bottom plate; the glue receiving boxes are fixedly arranged at the tops of one side of the first side baffle, the second side baffle, the third side baffle and the fourth side baffle; the inner sides of the first side baffle, the second side baffle, the third side baffle and the fourth side baffle are provided with a MiniLED and a MicroLED direct display screen lamp panel; the top of the MiniLED and MicroLED direct display screen lamp panel is provided with a layer of surface protection adhesive film; a layer of transparent liquid optical cement is arranged at the top of the surface protection adhesive film; the top of the transparent liquid optical adhesive is provided with two layers of touch sensing film; a LENS cover plate is arranged at the top of the touch sensing film. The device can clamp and seal the edge positions of the MiniLED and the MicroLED direct display screen consisting of the direct display screen lamp panel and the surface protection adhesive film with different sizes, is convenient for laminating and processing the MiniLED and the MicroLED direct display screen with different specifications, and effectively enhances the adaptability.

Description

Full laminating device that MiniLED and micro LED directly show and use

Technical Field

The utility model relates to a miniLED and micro LED directly show screen laminating technical field, in particular to miniLED and micro LED directly show full laminating device who uses.

Background

The MiniLED and micro LED direct display screen technology is mature gradually, and the attached product with the touch screen or the cover plate in the industry is still in a blank state, and how to attach the touch screen or the cover plate to the MiniLED and micro LED direct display screen is a task which is required to be researched and broken through when the urgent need arises. One bonding mode which is considered to be easier is a frame adhesive bonding mode, but because an air layer exists in the middle, the frame adhesive bonding mode is easy to be polluted by dust and water vapor of the environment, the machine use is affected, and because the air refracts light, the visual experience is easy to be poor, so that the direct display demands of MiniLED and MicroLED which are fully bonded by liquid optical cement are met.

The existing full laminating MiniLED and micro LED that is grinding directly show and all need use the mould to place and shelter from in the outside of MiniLED and micro LED directly show the screen (directly show screen lamp plate + surface protection glued membrane) when injecting glue to avoid glue to outwards flow out and make glue shaping, but these moulds that shelter from are fixed structure, consequently are difficult to carry out supplementary laminating to MiniLED and micro LED directly show the screen (directly show screen lamp plate + surface protection glued membrane) of different models, and adaptability is relatively poor, also is difficult to control the thickness of glue when laminating simultaneously, and laminating effect remains to be improved.

Disclosure of Invention

In view of the above, the utility model provides a MiniLED and micro LED directly show full laminating device of using to solve the mould adaptability that present totally laminating MiniLED and micro LED directly show the use that is lapping is relatively poor, laminating effect remains the problem that improves.

The utility model provides a MiniLED and micro LED directly show full laminating device who uses specifically includes: a bottom plate; a first side baffle is fixedly arranged at the top of the bottom plate; one side of the first side baffle is slidably provided with a second side baffle; a third side baffle is slidably arranged on one side of the second side baffle; a fourth side baffle is slidably arranged on one side of the third side baffle; two first electric push rods are fixedly arranged at the tops of the first side baffle plate and the second side baffle plate, one end of the first electric push rod at the top of the first side baffle plate is fixedly connected with one side of the second side baffle plate, and one end of the first electric push rod at the top of the second side baffle plate is fixedly connected with one side of the third side baffle plate; the bottoms of the first side baffle, the second side baffle, the third side baffle and the fourth side baffle are fixedly provided with a group of lower supporting legs; a group of universal wheels are arranged below the lower supporting legs at the bottoms of the second side baffle plate, the third side baffle plate and the fourth side baffle plate; one side of one lower supporting leg at the bottom of the first side baffle, the second side baffle, the third side baffle and the fourth side baffle is fixedly provided with a second electric push rod; the glue receiving boxes are fixedly arranged at the tops of one side of the first side baffle, the second side baffle, the third side baffle and the fourth side baffle; the inner sides of the first side baffle, the second side baffle, the third side baffle and the fourth side baffle are provided with a MiniLED and a MicroLED direct display screen lamp panel; the top of the MiniLED and MicroLED direct display screen lamp panel is provided with a layer of surface protection adhesive film; a layer of transparent liquid optical cement is arranged at the top of the surface protection adhesive film; the top of the transparent liquid optical adhesive is provided with two layers of touch sensing film; a LENS cover plate is arranged at the top of the touch sensing film.

Further, the second electric push rods are arranged on the lower supporting legs on one side of the L-shaped clamping blocks on the side baffle plates.

Further, the second side baffle can slide left and right at the rear side of the first side baffle, the third side baffle can slide front and back at the left side of the second side baffle, and the fourth side baffle can slide front and back at the left side of the first side baffle.

Further, an electric putter at a side shield top can promote No. two side shields and slide about a side shield rear side when flexible, and No. two side shields also can drive No. three side shields and move about in step through an electric putter at its top when moving about, and No. three side shields also can slide about between the L-shaped fixture block of No. four side shields one side in addition.

Further, the top outer wall of the glue receiving box is located on the same plane with the top surfaces of the first side baffle, the second side baffle, the third side baffle and the fourth side baffle, and the glue receiving box is provided with a uniform side opening.

Further, the electric putter at No. two side shield tops can promote No. three side shield and slide around No. two side shield left sides when flexible, can drive No. four side shield synchronous back-and-forth movement through the L-shaped fixture block of No. four side shield sides when No. three side shield back-and-forth movement, and No. four side shield also can slide back-and-forth between the L-shaped fixture block of No. one side shield side.

Further, one side of a side baffle, a second side baffle, a third side baffle and a fourth side baffle are all provided with two L-shaped clamping blocks, and the side baffle can slide and lock with the adjacent side baffle by means of the L-shaped clamping blocks on one side of the side baffle.

The beneficial effects are that:

1. the utility model provides a side shield and No. two side shields, no. three side shields and No. four side shield cooperation can shelter from the MiniLED that directly show screen lamp plate + surface protection glued membrane formed and the side of micro LED directly shows the screen, thereby can glue at its top, no. two side shields can slide about the rear side of No. one side shield, no. three side shields can slide about the left side of No. two side shields, no. four side shields can slide about the left side of No. one side shields, therefore just can change the left and right space and the front and back space of empty slot between the side shields through the adjustment during the use, thereby can carry out the centre gripping to MiniLED and micro LED directly show screen edge position that the direct display lamp plate + surface protection glued membrane of equidimension is constituteed and seal, be convenient for carry out laminating processing to MiniLED and micro LED directly showing the screen of different specifications, the effective reinforcing of adaptability.

2. The utility model provides a No. two electric putter is used for directly showing the MiniLED that screen lamp plate + surface protection glued membrane formed and micro LED directly showing the screen and supports, need directly show the MiniLED that screen lamp plate + surface protection glued membrane formed and micro LED directly showing the cavity that screen top was glued when can place it between the side shield, control four No. two electric putter synchronous flexible can adjust the MiniLED that directly showing screen lamp plate + surface protection glued membrane formed and micro LED directly showing the position height that the screen was put, consequently just can keep aside the height that corresponds with glued membrane thickness between the MiniLED that directly shows screen lamp plate + surface protection glued membrane formed and micro LED directly showing the top of screen top and side shield, be convenient for directly annotate the glue in the later stage, the MiniLED that directly shows screen lamp plate + surface protection glued membrane formed and micro LED directly show the screen top and just can not follow the side shield's corner position outwards flow out when glue, this device can adjust the height of glue filling cavity in advance when annotating glue, consequently, just can control the thickness of glue, effectively improve the laminating effect.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present utility model, the drawings of the embodiments will be briefly described below.

In the drawings:

fig. 1 is a front right shaft side structural schematic diagram of an embodiment of the present utility model.

Fig. 2 is a rear left shaft side structural schematic diagram of an embodiment of the present utility model.

Fig. 3 is a schematic diagram of a side view of the side shield according to the embodiment of the present utility model after adjustment.

Fig. 4 is a schematic axial side structure of a third side baffle according to the present utility model.

Fig. 5 is a schematic diagram of local axial side structure of MiniLED and micro LED direct display screen composed of the direct display screen lamp panel and the surface protection adhesive film according to the embodiment of the utility model.

Fig. 6 is a schematic view of a partial axial side structure of the transparent liquid optical cement according to the embodiment of the utility model.

Fig. 7 is a schematic diagram of a local axial side structure of a touch screen formed by a touch sensing film and a LENS cover plate after being attached to a direct display screen according to an embodiment of the present utility model.

List of reference numerals

1. A bottom plate; 2. a first side baffle; 3. a second side baffle; 4. a third side baffle; 5. a fourth side baffle; 6. a first electric push rod; 7. a lower support leg; 8. a second electric push rod; 9. a universal wheel; 10. a glue receiving box; 11. MiniLED and MicroLED direct display screen lamp panel; 12. a surface protection adhesive film; 13. transparent liquid optical cement; 14. a touch sensing film; 15. LENS apron.

Detailed Description

In order to make the objects, schemes and advantages of the technical scheme of the present utility model more clear, the technical scheme of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the specific embodiments of the present utility model.

Examples: please refer to fig. 1 to 7:

the utility model provides a full-laminating device for direct display application of MiniLED and MicroLED, which comprises a bottom plate 1; the top of the bottom plate 1 is fixedly provided with a first side baffle 2, the bottom plate 1 is used for supporting the upper part structure of the device, the first side baffle 2 is matched with a second side baffle 3, a third side baffle 4 and a fourth side baffle 5, and can shade the sides of a MiniLED and a micro LED direct display screen formed by a direct display screen lamp panel 11+ surface protection adhesive film 12, so that the top of the bottom plate can be coated with adhesive, meanwhile, the first side baffle 2 can also support the front side of the second side baffle 3, the corner positions of the second side baffle 3 and the first side baffle 2 can be always guaranteed to be closed, and the MiniLED and the micro LED direct display screen formed by the direct display screen lamp panel 11+ surface protection adhesive film 12 can not flow outwards from the corner positions of the side baffles when the adhesive is coated on the top of the direct display screen at the later stage; the first side baffle 2, the second side baffle 3, the third side baffle 4 and the fourth side baffle 5 are respectively provided with two L-shaped clamping blocks, and the side baffles can be slidingly locked with the adjacent side baffles by virtue of the L-shaped clamping blocks on one side of the side baffles, so that the first side baffle 2, the second side baffle 3, the third side baffle 4 and the fourth side baffle 5 can be prevented from being separated, and the left-right spacing and the front-back spacing of the empty slot between the side baffles are more stable when being adjusted; one side of the first side baffle 2 is slidably provided with the second side baffle 3, when the left-right spacing of the empty slot between the side baffles is required to be adjusted, the second side baffle 3 can be driven to slide left and right at the rear side of the first side baffle 2 only by controlling the two first electric push rods 6 at the top of the first side baffle 2 to synchronously stretch, so that the left-right spacing of the empty slot between the side baffles can be changed, and the third side baffle 4 can also slide left and right synchronously under the support of the universal wheels 9 below the lower supporting legs 7 at the bottom of the third side baffle 4, so that the corner positions of the third side baffle 4 and the second side baffle 3 are closed, and the MiniLED and the micro LED direct display screen formed by the direct display screen lamp panels 11+ surface protection adhesive film 12 can not flow outwards at the later stage when glue is smeared at the top of the side baffles; when the front-back spacing of the empty slot between the side baffles is required to be adjusted, the front-back spacing of the empty slot between the side baffles 3 can be changed by controlling the two first electric push rods 6 on the top of the side baffles 3 to synchronously stretch and retract so as to drive the third side baffle 4 to slide back and forth on the left side of the side baffles 3, and the front-back spacing of the empty slot between the side baffles can be changed, and the fourth side baffle 5 can synchronously slide back and forth under the support of the universal wheels 9 below the bottom lower supporting legs 7 of the fourth side baffle 5, so that the corner positions of the fourth side baffle 5 and the third side baffle 4 are closed, and the MiniLED and micro LED direct display screen consisting of the direct display screen lamp panels 11+ surface protection adhesive films 12 can not outwards flow out from the corner positions of the side baffles in the later period when glue is smeared on the tops of the direct display screens; a fourth side baffle 5 is slidably arranged on one side of the third side baffle 4, the fourth side baffle 5 can support the left side of the first side baffle 2, the corner positions of the first side baffle 2 and the fourth side baffle 5 can be always guaranteed to be closed, and glue cannot flow outwards from the corner positions of the side baffles when glue is smeared on the tops of MiniLED and MicroLED direct display screens, which are formed by the direct display screen lamp panels 11 and the surface protection glue film 12, in the later stage; the tops of the first side baffle plate 2 and the second side baffle plate 3 are fixedly provided with two first electric push rods 6, one end of the first electric push rod 6 at the top of the first side baffle plate 2 is fixedly connected with one side of the second side baffle plate 3, one end of the first electric push rod 6 at the top of the second side baffle plate 3 is fixedly connected with one side of the third side baffle plate 4, when the left-right spacing of the empty slot between the side baffle plates is required to be adjusted, the first electric push rods 6 at the top of the first side baffle plate 2 are only required to be controlled to synchronously stretch out and draw back to drive the second side baffle plate 3 to slide left and right at the left side of the second side baffle plate 4, so that the MiniLED and the MiniLED of the surface protection panel 11+ with different sizes can be clamped and clamped by the MiniLED with different specifications, and the MiniLED is convenient to process the LED with different requirements; the bottoms of the first side baffle plate 2, the second side baffle plate 3, the third side baffle plate 4 and the fourth side baffle plate 5 are fixedly provided with a group of lower supporting legs 7, and the lower supporting legs 7 are used for supporting the first side baffle plate 2, the second side baffle plate 3, the third side baffle plate 4 and the fourth side baffle plate 5; a group of universal wheels 9 are arranged below the lower supporting legs 7 at the bottoms of the second side baffle 3, the third side baffle 4 and the fourth side baffle 5, and the universal wheels 9 can enable the second side baffle 3, the third side baffle 4 and the fourth side baffle 5 to slide in different directions; the side baffles 2, the side baffles 3, the side baffles 4 and one side of the lower supporting leg 7 at the bottom of the side baffles 5 are fixedly provided with the electric push rod 8, so that the MiniLED formed by the direct display screen lamp plates 11+ and the surface protecting adhesive film 12 and the top surface of the micro LED direct display screen can be placed in a cavity between the side baffles when the top of the direct display screen is coated with adhesive, at the moment, the electric push rods 8 support the MiniLED formed by the direct display screen lamp plates 11+ and the micro LED direct display screen, the electric push rods 8 are controlled to synchronously stretch and retract, the heights of the MiniLED formed by the direct display screen lamp plates 11+ and the micro LED direct display screen can be adjusted, and therefore, the heights corresponding to the thicknesses of the adhesive films can be reserved between the MiniLED formed by the direct display screen lamp plates 11+ and the surface protecting adhesive film 12 and the top surface of the side baffles, the glue can be conveniently and directly injected in the later stage, and the distance between the left side baffle and the right side baffle can not be adjusted because the distance between the left side supporting leg 7 is prevented by the electric push rod 8; the top parts of one side baffle plate 2, two side baffle plates 3, three side baffle plates 4 and four side baffle plates 5 are fixedly provided with a glue receiving box 10, when transparent liquid optical glue 13 is poured into the top parts of MiniLED and micro LED direct display screens formed by the direct display screen lamp panels 11 and the surface protection glue films 12, redundant glue flows into the glue receiving box 10 through the top outer walls of the first side baffle plate 2, the second side baffle plate 3, the third side baffle plate 4 and the fourth side baffle plate 5, and the glue can be prevented from falling outwards because the top outer walls of the glue receiving box 10 and the top surfaces of the side baffle plates are positioned at the same height, and the glue can be scraped outwards through the opening at one side of the glue receiving box 10 in the later period, so that the redundant glue can be conveniently collected and cleaned; the inner sides of the first side baffle 2, the second side baffle 3, the third side baffle 4 and the fourth side baffle 5 are provided with a MiniLED and MicroLED direct display screen lamp panel 11; the top of the MiniLED and micro LED direct display screen lamp panel 11 is provided with a layer of surface protection adhesive film 12, and the surface protection adhesive film 12 covers the surfaces of the MiniLED and micro LED direct display screen lamp panel 11 to protect surface electronic elements; the top of the surface protection film 12 is provided with a layer of transparent liquid optical adhesive 13, the transparent liquid optical adhesive 13 can fully fill the cavity between the MiniLED and the MicroLED direct display screen formed by the direct display screen lamp panel 11 and the surface protection film 12 and the touch screen formed by the touch sensing film 14 and the LENS cover plate 15, so that seamless bonding is realized, dust and water vapor can be prevented from entering, the cleanliness of the screen is maintained, meanwhile, the light is greatly improved due to refraction of an air layer, the visual experience is greatly improved, in addition, the strength can be improved due to tight combination of the touch screen and the display panel, and the thickness of a module can be reduced, so that the whole product is thinner; the top of the transparent liquid optical adhesive 13 is provided with two layers of touch sensing film 14; the top of the touch sensing film 14 is provided with a LENS cover plate 15, and the touch sensing film 14 and the LENS cover plate 15 can form a touch screen together after being attached.

The second electric push rods 8 are all arranged on the lower supporting legs 7 on one side of the L-shaped clamping blocks, the MiniLED and micro LED which are formed by the direct display screen lamp panels 11 and the surface protection adhesive film 12 are required to be placed in the cavity between the side baffles when the top of the direct display screen is coated with adhesive, at the moment, the fourth second electric push rods 8 can support the MiniLED and micro LED which are formed by the direct display screen lamp panels 11 and the surface protection adhesive film 12, the height of the MiniLED and micro LED which are formed by the direct display screen lamp panels 11 and the surface protection adhesive film 12 can be controlled by synchronously stretching and contracting the fourth electric push rods 8, so that the height corresponding to the thickness of the adhesive film can be reserved between the MiniLED and the top surface of the direct display screen lamp panels 11 and the top surface of the micro LED which are formed by the surface protection adhesive film 12, the glue injection can be directly carried out in the later stage conveniently, and the distance between the left side baffle and the right side baffle and the space between the left side baffle and the right side baffle can not be hindered.

The second side baffle 3 can slide left and right at the rear side of the first side baffle 2, the third side baffle 4 can slide front and back at the left side of the second side baffle 3, and the fourth side baffle 5 can slide front and back at the left side of the first side baffle 2, so that the left-right spacing and the front-back spacing of empty slots between the side baffles can be changed through adjustment during use, and accordingly the MiniLED and micro LED direct display screen edge positions formed by the direct display screen lamp panels 11+ and the surface protection adhesive film 12 with different sizes can be clamped and sealed, bonding processing of MiniLED and micro LED direct display screens with different specifications is facilitated, and adaptability is effectively enhanced.

The electric push rod 6 at the top of the side baffle 2 can push the side baffle 3 to slide left and right at the rear side of the side baffle 2 when stretching and contracting, the side baffle 4 can be driven to slide left and right synchronously by the electric push rod 6 at the top of the side baffle 3 when moving left and right, the side baffle 4 can slide left and right between L-shaped clamping blocks at one side of the side baffle 5, when the left and right spacing of empty slots between the side baffles is needed to be adjusted, the side baffle 3 can be driven to slide left and right at the rear side of the side baffle 2 only by controlling the synchronous stretching and contracting of the two electric push rods 6 at the top of the side baffle 2, so that the left and right spacing of the empty slots between the side baffles can be changed, and the side baffle 4 can slide left and right synchronously under the support of the universal wheels 9 below the lower supporting legs 7 at the bottom of the side baffle 4, so that the side baffle 4 and the side baffle 3 can be guaranteed to be sealed at the corner positions, and the corner positions of the side baffle 11+ and the MiniLED are not smeared at the corner glue film at the back when the top of the side display panel 11+ and the LED are smeared.

Wherein, connect the top outer wall of gluing box 10 all with a side shield 2, no. two side shields 3, no. three side shields 4 and No. four side shields 5's top face is located the coplanar, and connect the even side opening of gluing box 10, miniLED and micro LED that directly show that screen lamp plate 11+ surface protection glued membrane 12 constitutes are directly showing the top and are pouring transparent liquid optical cement 13 time unnecessary glue can flow into and connect gluing box 10 through No. one side shield 2, no. two side shields 3, no. three side shields 4 and No. four side shields 5's top outer walls, and because connect the top outer wall of gluing box 10 and the top face of side shields to be located same height, so just can avoid glue outwards dropping, later stage can be with these glue outwards scrape out through the opening that connects gluing box 10 one side, be convenient for collect and clear up unnecessary glue.

The electric push rod 6 at the top of the second side baffle 3 can push the third side baffle 4 to slide back and forth at the left side of the second side baffle 3 when stretching, the third side baffle 4 can drive the fourth side baffle 5 to synchronously slide back and forth through the L-shaped clamping block at one side of the fourth side baffle 5 when moving back and forth, the fourth side baffle 5 can also slide back and forth between the L-shaped clamping blocks at one side of the first side baffle 2, when the front and back space of a blank slot between the side baffles is needed to be adjusted, the front and back space of the blank slot is needed to be adjusted, the third side baffle 4 can be driven to slide back and forth at the left side of the second side baffle 3 only by controlling the synchronous stretching of the two electric push rods 6 at the top of the second side baffle 3, so that the front and back space of the blank slot between the side baffles can be changed, and the fourth side baffle 5 can also slide back and forth synchronously under the support of the universal wheels 9 below the bottom lower supporting legs 7 of the fourth side baffle 5, so that the corner positions of the fourth side baffle 5 and the third side baffle 4 can be ensured to be sealed, and the corner positions of a MiniLED (light panel) formed by protecting the surface of the straight screen lamp panel 11+ and the LED (light source) can not flow out from the corner positions of the LED (light source) at the back and the front display panel when the LED panel is coated.

Specific use and action of the embodiment: in the utility model, when the device is used for pasting the MiniLED and the micro LED direct display screen, the device is firstly supported and placed at a proper position through the bottom plate 1, then the size of the empty slot between the MiniLED and the micro LED direct display screen which can be processed according to the needs is adjusted, when the left-right spacing of the empty slot between the side baffles is needed to be adjusted, the two electric push rods 6 which are used for controlling the top of the side baffle 2 are only needed to synchronously stretch and retract, the side baffle 3 can be driven to slide left and right at the rear side of the side baffle 2, thus the left-right spacing of the empty slot between the side baffles can be changed, and because the side baffle 4 is also supported by the universal wheels 9 below the lower supporting leg 7 at the bottom of the side baffle and synchronously slides left and right, the corner positions of the side baffle 4 and the side baffle 3 can be guaranteed to be closed, when the front-back spacing of the empty slot between the side baffles is needed to be adjusted, the front-back distance of the empty slot between the side baffles can be changed by controlling the synchronous extension and retraction of the two first electric push rods 6 at the top of the second side baffle 3 to drive the third side baffle 4 to slide back and forth at the left side of the second side baffle 3, and the corner positions of the fourth side baffle 5 and the third side baffle 4 can be ensured to be closed because the fourth side baffle 5 slides back and forth synchronously under the support of the universal wheels 9 below the bottom lower supporting legs 7, the first side baffle 2 can also support the front side of the second side baffle 3, the corner positions of the second side baffle 3 and the first side baffle 2 can be always ensured to be closed, the fourth side baffle 5 can support the left side of the first side baffle 2, the corner positions of the first side baffle 2 and the fourth side baffle 5 can be always ensured to be closed, the MiniLED and micro LED direct display screen top composed of the direct display screen lamp panels 11+ surface protection adhesive film 12 can not flow outwards from the corner positions of the side baffles when glue is smeared at the later stage, the device can change the left-right spacing and the front-back spacing of the empty slots between the side baffles by adjusting when in use, so that the edge positions of the MiniLED and micro LED direct display screen composed of the direct display screen lamp panels 11+ surface protection adhesive film 12 with different sizes can be clamped and sealed, the bonding processing of the MiniLED and micro LED direct display screen with different specifications is facilitated, the adaptability is effectively enhanced, the MiniLED and micro LED direct display screen top composed of the direct display screen lamp panels 11+ surface protection adhesive film 12 can be placed in the cavity between the side baffles when glue is smeared at the top of the direct display screen, at the moment, four second electric push rods 8 can support the MiniLED and micro LED direct display screen composed of the direct display screen lamp panels 11+ surface protection adhesive film 12, the height of the MiniLED and micro LED direct display screen formed by the direct display screen lamp panel 11 and the surface protection adhesive film 12 can be adjusted by controlling the synchronous extension of the four second electric push rods 8, so that the height corresponding to the thickness of the adhesive film can be reserved between the top of the MiniLED and micro LED direct display screen formed by the direct display screen lamp panel 11 and the surface protection adhesive film 12 and the top surface of the side baffle, the glue injection can be directly carried out at the later stage, the second electric push rods 8 are positioned on the lower supporting legs 7 on one side of the side baffle, which are provided with L-shaped clamping blocks, the left-right spacing and the front-back spacing of the empty slots between the side baffles are not prevented from being adjusted, the redundant glue can flow into the glue receiving box 10 through the top outer walls of the top of the first side baffle 2, the second side baffle 3, the third side baffle 4 and the fourth side baffle 5 when the transparent liquid optical glue 13 is poured at the top of the MiniLED and micro LED direct display screen formed by the direct display screen lamp panel 11 and the surface protection adhesive film 12, and because the top outer wall of the glue receiving box 10 and the top surface of the side baffle are positioned at the same height, glue can be prevented from falling outwards, the glue can be scraped outwards through an opening at one side of the glue receiving box 10 in the later stage, the redundant glue can be conveniently collected and cleaned, the transparent liquid optical glue 13 can fully fill up the cavity between the MiniLED and micro LED direct display screen consisting of the direct display screen light panel 11+ and the touch screen consisting of the micro LED direct display screen and the touch sensing film 14+ and LENS cover plate 15, so that seamless bonding is realized, dust and water vapor can not enter, the cleanliness of the screen is maintained, meanwhile, the visual experience is greatly improved due to refraction of an air layer, in addition, the touch screen and the display panel are tightly combined, the strength can be improved, the thickness of a module can be reduced, the whole product is thinner, and the touch sensing film 14 and the LENS cover plate 15 can jointly form the touch screen after bonding.

Claims (7)

1. Full laminating device that MiniLED and micro LED show application directly, a serial communication port includes: a bottom plate (1); a first side baffle (2) is fixedly arranged at the top of the bottom plate (1); one side of the first side baffle (2) is slidably provided with a second side baffle (3); a third side baffle (4) is slidably arranged on one side of the second side baffle (3); one side of the third side baffle (4) is slidably provided with a fourth side baffle (5); two first electric push rods (6) are fixedly arranged at the tops of the first side baffle plate (2) and the second side baffle plate (3), one end of each first electric push rod (6) at the top of the first side baffle plate (2) is fixedly connected with one side of the second side baffle plate (3), and one end of each first electric push rod (6) at the top of the second side baffle plate (3) is fixedly connected with one side of the third side baffle plate (4); the bottoms of the first side baffle (2), the second side baffle (3), the third side baffle (4) and the fourth side baffle (5) are fixedly provided with a group of lower supporting legs (7); a group of universal wheels (9) are arranged below the lower supporting legs (7) at the bottoms of the second side baffle (3), the third side baffle (4) and the fourth side baffle (5); one side of one lower supporting leg (7) at the bottoms of the first side baffle (2), the second side baffle (3), the third side baffle (4) and the fourth side baffle (5) is fixedly provided with a second electric push rod (8); the glue receiving boxes (10) are fixedly arranged at the tops of one side of the first side baffle (2), the second side baffle (3), the third side baffle (4) and the fourth side baffle (5); the LED display screen comprises a first side baffle (2), a second side baffle (3), a third side baffle (4) and a fourth side baffle (5), wherein a MiniLED and a MicroLED direct display screen lamp panel (11) are arranged on the inner sides of the first side baffle and the second side baffle; the top of the MiniLED and MicroLED direct display screen lamp panel (11) is provided with a layer of surface protection adhesive film (12); a layer of transparent liquid optical adhesive (13) is arranged at the top of the surface protection adhesive film (12); the top of the transparent liquid optical adhesive (13) is provided with two layers of touch sensing film (14); a LENS cover plate (15) is arranged at the top of the touch sensing film (14).

2. The full-lamination device for direct display application of MiniLED and MicroLED as claimed in claim 1, wherein: the second side baffle (3) can slide left and right on the rear side of the first side baffle (2), the third side baffle (4) can slide front and back on the left side of the second side baffle (3), and the fourth side baffle (5) can slide front and back on the left side of the first side baffle (2).

3. The full-lamination device for direct display application of MiniLED and MicroLED as claimed in claim 1, wherein: the top outer wall of the glue receiving box (10) is located on the same plane with the top surfaces of the first side baffle (2), the second side baffle (3), the third side baffle (4) and the fourth side baffle (5), and the glue receiving box (10) is provided with uniform side openings.

4. The full-lamination device for direct display application of MiniLED and MicroLED as claimed in claim 1, wherein: one side of the first side baffle (2), the second side baffle (3), the third side baffle (4) and the fourth side baffle (5) are respectively provided with two L-shaped clamping blocks, and the side baffles can be slidably locked with the adjacent side baffles by means of the L-shaped clamping blocks on one side of the side baffles.

5. The full-lamination device for direct display application of MiniLED and MicroLED as claimed in claim 1, wherein: and the second electric push rods (8) are arranged on lower supporting legs (7) on one side of the L-shaped clamping blocks on the side baffles.

6. The full-lamination device for direct display application of MiniLED and MicroLED as claimed in claim 1, wherein: the electric push rod (6) at the top of the side baffle (2) can push the side baffle (3) to slide left and right at the rear side of the side baffle (2) when stretching, the side baffle (3) can also drive the side baffle (4) to synchronously move left and right through the electric push rod (6) at the top of the side baffle (3), and the side baffle (4) can also slide left and right between L-shaped clamping blocks at one side of the side baffle (5).

7. The full-lamination device for direct display application of MiniLED and MicroLED as claimed in claim 1, wherein: electric putter (6) at No. two side shield (3) tops can promote No. three side shield (4) and slide around No. two side shield (3) left sides when flexible, can drive No. four side shield (5) synchronous back-and-forth movement through the L-shaped fixture block of No. four side shield (5) one side when No. three side shield (4) back-and-forth movement, and No. four side shield (5) also can slide back-and-forth between the L-shaped fixture block of No. one side of side shield (2).