CN216912768U - Full-automatic backlight assembly equipment - Google Patents

Full-automatic backlight assembly equipment Download PDF

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Publication number
CN216912768U
CN216912768U CN202121363752.6U CN202121363752U CN216912768U CN 216912768 U CN216912768 U CN 216912768U CN 202121363752 U CN202121363752 U CN 202121363752U CN 216912768 U CN216912768 U CN 216912768U
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assembly
film tearing
feeding
pressure maintaining
blanking
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CN202121363752.6U
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Chinese (zh)
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周淼森
左军
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Dongguan Dingli Automation Technology Co Ltd
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Dongguan Dingli Automation Technology Co Ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P70/00Climate change mitigation technologies in the production process for final industrial or consumer products
    • Y02P70/50Manufacturing or production processes characterised by the final manufactured product

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Abstract

The utility model relates to the technical field of automatic manufacturing, in particular to full-automatic backlight assembling equipment which comprises a machine table, a feeding mechanism, a feeding laminating arm, a film tearing mechanism, a laminating mechanism, a pressure maintaining blanking mechanism and a material receiving mechanism, wherein the film tearing mechanism, the laminating mechanism and the pressure maintaining blanking mechanism are sequentially arranged on the machine table, the feeding laminating arm stretches across the film tearing mechanism, the laminating mechanism and the pressure maintaining blanking mechanism, the feeding mechanism is arranged on the front side of the film tearing mechanism, and the material receiving mechanism is arranged on the rear side of the pressure maintaining blanking mechanism. With this laminate again after tearing the membrane with the work piece to send the material out again after handling through the pressurize and make two products perfect laminating, with this a plurality of stations collection as an organic whole, not only can accomplish the equipment laminating accurately, ensured work piece equipment stability, can improve the equipment laminating precision of work piece, ensure the quality of work piece equipment.

Description

Full-automatic backlight assembly equipment
Technical Field
The utility model relates to the technical field of automatic manufacturing, in particular to full-automatic backlight assembly equipment.
Background
In the process of assembling the backlight module, the LCD module and the backlight module are often required to be assembled. At present, the backlight module installation machine on the market has single function, only can complete the basic assembly process of the workpiece, generally carries out assembly after directly tearing the film, lacks the assistance of relevant mechanisms such as film tearing, laminating and the like, has poor assembly stability and low assembly precision, and seriously influences the assembly quality of the workpiece. Therefore, there is a need in the industry for a solution to the above-mentioned problems.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a full-automatic backlight assembly device aiming at the defects of the prior art. The object of the present invention can be achieved by the following technical means.
The utility model provides a full-automatic equipment of being shaded, includes board, feed mechanism, material loading laminating arm, dyestripping mechanism, laminating mechanism, pressurize unloading mechanism and receiving mechanism, dyestripping mechanism laminating mechanism reaches pressurize unloading mechanism sets gradually on the board, material loading laminating arm spanes dyestripping mechanism laminating mechanism reaches pressurize unloading mechanism sets up, feed mechanism sets up the front side of dyestripping mechanism, receiving mechanism sets up the rear side of pressurize unloading mechanism.
Preferably, feed mechanism includes the material loading board, shoots locating component, empty tray carrier subassembly, two charging tray lifting unit and two charging tray business turn over material subassemblies, two the charging tray business turn over material subassembly sets up side by side on the material loading board, charging tray lifting unit sets up the front side of charging tray business turn over material subassembly, empty tray carrier subassembly stretches across two the charging tray lifting unit sets up the material loading board, the locating component of shooing corresponds the setting with the charging tray business turn over material subassembly of feeding one side.
Preferably, the charging tray feeding and discharging assembly comprises a feeding and discharging base, a buffer component and a feeding and discharging component, the buffer part comprises a first blocking cylinder, a correcting part, a forward and reverse screw rod, a correcting motor, a first driving motor and a plurality of first rollers, the first roller is arranged on the feeding and discharging base and is in transmission connection with the first driving motor, the correcting motor drives the forward and reverse screw rods to rotate, the correcting pieces are sleeved at two ends of the forward and reverse screw rods, the first blocking cylinder is arranged below the first rollers and stretches and retracts from the gap between the first rollers to block materials, the feeding and discharging component comprises a second driving motor and a plurality of rotating rods, the rotating rods are arranged on the feeding and discharging base and are in transmission connection with the second driving motor, and each rotating rod is provided with a plurality of second rollers which are arranged at intervals in a sleeved mode.
Preferably, the feeding and bonding arm includes a first carrying base, a second carrying base, a feeding and carrying assembly and a bonding and carrying assembly, the first carrying base and the second carrying base are parallel to each other, the feeding and carrying assembly is disposed between the first carrying base and the second carrying base, two ends of the feeding and carrying assembly are slidably connected to the first carrying base and the second carrying base, respectively, and the bonding and carrying assembly is slidably connected to the first carrying base.
Preferably, dyestripping mechanism includes the clean subassembly of dyestripping transfer base, transfer platform, dyestripping subassembly and ionic wind, the middle part of dyestripping transfer base is equipped with the first space of stepping down, the dyestripping subassembly reaches the clean subassembly of ionic wind respectively with dyestripping transfer base sliding connection place in the first space of stepping down, just the clean subassembly setting of ionic wind is in dyestripping subassembly openly one side and aim at the dyestripping position, the transfer platform is fixed the top of dyestripping subassembly.
Preferably, the dyestripping subassembly is including tearing membrane seat, dyestripping gyro wheel, dyestripping lift cylinder, dyestripping clamping jaw cylinder, folder lift cylinder and dyestripping rotating electrical machines, the dyestripping rotating electrical machines is installed tear on the membrane seat, the dyestripping clamping jaw cylinder sets up on folder lift cylinder, the dyestripping clamping jaw cylinder promotes the dyestripping clamping jaw opens or is closed, folder lift cylinder sets up on the dyestripping rotating electrical machines, the dyestripping gyro wheel sets up on the dyestripping lift cylinder, the dyestripping lift cylinder sets up tear the membrane seat and be located the front side of dyestripping folder, dyestripping lift cylinder promotes the dyestripping gyro wheel goes up and down.
Preferably, laminating mechanism includes about two laminating subassemblies that set up side by side, every the laminating subassembly includes laminating platform, laminating moving member and two counterpoints, laminating platform sliding connection is in on the laminating moving member, just the below of laminating platform is equipped with the second space of stepping down, two the counterpoint piece along set up around the slip direction of laminating platform on the second space of stepping down.
Preferably, the pressure maintaining blanking mechanism comprises a pressure maintaining blanking track, a blanking arm moving module, a precision detection assembly, a pressure maintaining blanking table moving module, a pressure maintaining assembly and a finished product material throwing assembly, wherein two sides of the pressure maintaining blanking table are respectively in sliding connection with the pressure maintaining blanking track and the pressure maintaining blanking table moving module, two sides of the blanking arm are respectively in sliding connection with the pressure maintaining blanking track and the blanking arm moving module, the pressure maintaining assembly is arranged above the pressure maintaining blanking table, the precision detection assembly is arranged below the pressure maintaining blanking table, and the finished product material throwing assembly is arranged beside the blanking arm.
Preferably, the receiving mechanism comprises a first receiving lifting assembly, a speed-multiplying chain assembly, a blocking jacking assembly, a receiving operation table and a second receiving lifting assembly, the first receiving lifting assembly is connected with the front end of the speed-multiplying chain assembly, the second receiving lifting assembly is connected with the rear end of the speed-multiplying chain assembly, the receiving operation table is arranged on two sides of the speed-multiplying chain assembly, and the blocking jacking assembly is arranged between the speed-multiplying chain assemblies.
Preferably, block the jacking subassembly and block cylinder, jacking support plate, translation motor and translation gyro wheel including blocking jacking seat, second, the second blocks the cylinder setting and is in block the front side of jacking seat, the jacking cylinder is fixed block on the jacking seat, the jacking support plate is fixed on the promotion axle of jacking cylinder, the translation gyro wheel rotates to be connected on the jacking support plate, the translation motor with the transmission of translation gyro wheel is connected.
Compared with the prior art, the utility model has the beneficial effects that:
the utility model develops full-automatic backlight assembly equipment, which is used for laminating workpieces after film tearing, and conveying the two products out after perfect lamination through pressure maintaining treatment, so that a plurality of stations are integrated, the assembly and lamination can be accurately finished, the assembly stability of the workpieces is ensured, the assembly and lamination precision of the workpieces can be improved, and the assembly quality of the workpieces is ensured.
Drawings
Fig. 1 is a schematic structural diagram of a backlight assembly apparatus according to an embodiment of the utility model.
Fig. 2 is a schematic structural diagram of a feeding mechanism in the embodiment of the utility model.
Fig. 3 is a schematic structural diagram of the charging tray feeding and discharging assembly and the charging tray lifting assembly in the embodiment of the utility model.
Fig. 4 is a schematic structural view of a feeding and fitting arm in the embodiment of the utility model.
FIG. 5 is a schematic structural diagram of a film tearing mechanism according to an embodiment of the present invention.
Fig. 6 is a schematic structural diagram of a film tearing assembly in an embodiment of the present invention.
FIG. 7 is a schematic structural diagram of a bonding mechanism according to an embodiment of the utility model.
Fig. 8 is a schematic structural diagram of a pressure maintaining blanking mechanism in the embodiment of the utility model.
Fig. 9 is a schematic structural view of a receiving mechanism in an embodiment of the present invention.
Fig. 10 is a schematic structural diagram of a blocking jacking assembly according to an embodiment of the present invention.
Detailed Description
The technical solutions of the present invention will be described clearly and completely with reference to specific embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
The utility model provides a full-automatic equipment of being shaded, as shown in figure 1, includes board 1, feed mechanism 2, material loading laminating arm 3, dyestripping mechanism 4, laminating mechanism 5, pressurize unloading mechanism 6 and receiving mechanism 7, dyestripping mechanism 4 laminating mechanism 5 reaches pressurize unloading mechanism 6 sets gradually on the board 1, material loading laminating arm 3 spanes dyestripping mechanism 4 laminating mechanism 5 reaches pressurize unloading mechanism 6 sets up, feed mechanism 2 sets up the front side of dyestripping mechanism 4, receiving mechanism 7 sets up the rear side of pressurize unloading mechanism 6.
Specifically, as shown in fig. 1, the LCD module is sent into by the feeding mechanism 2, the LCD module is grabbed by the feeding attaching arm 3 to the film tearing mechanism 4 for film tearing, and then the LCD module is transferred to the attaching mechanism 5 for attaching to the backlight module placed on the attaching mechanism 5, and then the whole product after attaching is transferred to the pressure maintaining blanking mechanism 6 for pressure maintaining, so that the product is placed on the material receiving mechanism 7 for being transmitted out after the two products are perfectly attached. The plurality of stations are integrated, so that the assembling and the laminating can be accurately finished, the assembling stability of the workpiece is guaranteed, the assembling and the laminating precision of the workpiece can be improved, and the assembling quality of the workpiece is ensured.
In the embodiment of the present invention, as shown in fig. 2, the feeding mechanism 2 includes a feeding machine table 21, a photographing positioning assembly 22, an empty tray carrying assembly 23, two tray lifting assemblies 25, and two tray feeding and discharging assemblies 24. The two tray feeding and discharging assemblies 24 are arranged on the feeding machine table 21 side by side, one tray feeding and discharging assembly 24 conveys the tray filled with the feeding products to the tray lifting assembly 25 to be lifted to a preset position to pick and feed the products on the tray, and the other tray feeding and discharging assembly 24 conveys the empty tray which is conveyed by the tray lifting assembly 25 and is subjected to feeding to a manual position to be taken away. The tray lifting assembly 25 is arranged at the front side of the tray feeding and discharging assembly 24, so that the tray feeding and discharging assembly 24 can smoothly and accurately convey products to the tray lifting assembly 25 by conveying the products forwards. The empty tray carrying assembly 23 spans two of the tray lifting assemblies 25 and is arranged on the feeding machine table 21, so that the empty tray carrying assembly 23 can grab and carry empty trays on the tray lifting assemblies 25 to another tray lifting assembly to be sent out. The photographing positioning component 22 is arranged corresponding to the charging tray feeding and discharging component 24 on the feeding side, and the photographing positioning component 22 is used for confirming the grabbing position of a product, so that the product can be grabbed by the clamp matched with the use for subsequent processing.
When feeding, as shown in fig. 2, the material tray filled with the product is placed at the left material tray feeding and discharging assembly 24 in fig. 2, the material tray feeding and discharging assembly 24 conveys the material tray to the material tray lifting assembly 25, the material tray lifting assembly 25 lifts the whole material tray upwards, the photographing positioning assembly 22 detects the product on the material tray, the product position is confirmed and then is fed back to the matched fixture to grab the product, after all the products on the material tray are taken away, the empty tray carrying assembly 23 carries the empty material tray to the right material tray lifting assembly 25, and the material tray lifting assembly 25 lowers the empty material tray and sends the empty material tray feeding and discharging assembly 24 out through the right material tray. Meanwhile, because the position for grabbing the product and the manual placement position have a certain distance, the worker can continue to feed the next material disc at the material loading position without damaging the worker, the machine table 1 does not need to stop working, and the improvement of the production efficiency is facilitated.
In the full-automatic backlight assembly device provided in this embodiment, as shown in fig. 3, the tray feeding and discharging assembly 24 includes a feeding and discharging base 241, a buffer component 242, and a feeding and discharging component 243, where the buffer component 242 is used to store materials, and after a previous tray is completely loaded, the tray can be directly conveyed to the tray lifting assembly 25 through the feeding and discharging component 243. The buffer component 242 includes a first blocking cylinder 2424, a correcting element 2421, a forward and reverse screw rod (not shown), a correcting motor 2423, a first driving motor 2422 and a plurality of first rollers 2425, the first rollers 2425 are disposed on the feeding and discharging base 241 and are in transmission connection with the first driving motor 2422, the correcting motor 2423 drives the forward and reverse screw rod to rotate, the correcting element 2421 is sleeved at two ends of the forward and reverse screw rod, the first blocking cylinder 2424 is disposed below the first rollers 2425 and stretches out and draws back from a gap between the first rollers 2425 to block materials, the feeding and discharging component 243 includes a second driving motor 2431 and a plurality of rotating rods 2432, the rotating rods 2432 are disposed on the feeding and discharging base 241 and are in transmission connection with the second driving motor 2431, each rotating rod 2432 is sleeved with a plurality of second rollers 2433 disposed at intervals, leaving a space for engagement with the tray lifting assembly 25. After products are loaded on the material tray, the products are placed on the buffer part 242, the first blocking air cylinder 2424 ascends to block the material tray from being conveyed by the first roller 2425, the first roller 2425 drives the forward and reverse screw rods to enable the correcting parts 2421 on the two sides to move towards the middle, and then the material tray is corrected to be located in the middle of the first roller 2425. When feeding is needed, the first blocking cylinder 2424 retracts downwards, and the material tray is conveyed forwards to the feeding and discharging part 243 along with the first roller 2425, so that the material storage capacity can be greatly increased, the manual feeding and discharging frequency is reduced, and the production efficiency is improved.
As shown in fig. 4, the feeding and bonding arm 3 includes a first carrying base 31, a second carrying base 32, a feeding and carrying assembly 33, and a bonding and carrying assembly 34, where the first carrying base 31 and the second carrying base 32 are arranged in parallel, the feeding and carrying assembly 33 is arranged between the first carrying base 31 and the second carrying base 32, and a distance between the first carrying base 31 and the second carrying base 32 allows the feeding assembly to move in the Y direction to adapt to a product position. The two ends of the feeding conveying assembly 33 are respectively connected with the first conveying base 31 and the second conveying base 32 in a sliding manner, the feeding conveying assembly 33 moves on the first conveying base 31 and the second conveying base 32 in the X direction to convey the fed product to a predetermined position, and when the feeding conveying assembly 33 moves, the first conveying base 31 and the second conveying base 32 can provide a balance force for the movement of the feeding conveying assembly 33. The attached carrying assembly 34 is slidably connected to the first carrying base 31. The attaching and carrying assembly 34 moves on the first carrying base 31 along the X direction, and the moving direction of the attaching and carrying assembly is the same as that of the feeding and carrying assembly 33, so that the product transferred to the transfer position by the feeding assembly can be conveniently grabbed for attaching.
When the feeding, attaching and carrying are performed, as shown in fig. 4, the feeding and carrying assembly 33 slides to the product placing position relatively on the first carrying base 31 and the second carrying base 32, the material taking angle of the feeding and carrying assembly 33 is adjusted to be suitable for grabbing a product, the product is transferred from the feeding position to the transfer position, the feeding and carrying assembly 33 moves back to continuously grab a next product, and meanwhile, the attaching and carrying assembly 34 moves relatively on the first carrying base 31 to grab the product for attaching, so that the product position is prevented from being randomly changed, the attaching quality is ensured, the product is stressed uniformly during attaching, and the risk of damage to the product is reduced.
The full-automatic backlight assembly equipment provided in this embodiment, as shown in fig. 5, dyestripping mechanism 4 includes dyestripping transfer base 41, transfer platform 44, dyestripping subassembly 42 and the clean subassembly 43 of ionic wind, the middle part of dyestripping transfer base 41 is equipped with first space of stepping down 45, and this first space of stepping down 45 can hold dyestripping subassembly 42, the clean subassembly 43 of ionic wind and dyestripping product. The film tearing assembly 42 and the ion wind cleaning assembly 43 are respectively connected with the film tearing transfer base 41 in a sliding mode and are arranged in the first abdicating space 45, and the positions of the film tearing assembly 42 and the ion wind cleaning assembly 43 can be adjusted to adapt to a film tearing product by moving on the film tearing transfer base 41. And the ion wind cleaning component 43 is arranged on one side of the front surface of the film tearing component 42 and is aligned with the film tearing position, so that the debris can be quickly adsorbed by the ion wind cleaning component 43 once falling down. Transfer platform 44 is fixed tear the top of membrane module 42, is convenient for transfer platform 44 to place the product after accomplishing the dyestripping.
Can be according to the condition of dyestripping product, as shown in fig. 5, make dyestripping subassembly 42, clean subassembly 43 of ionic wind adjusts the position between the two on dyestripping transfer base 41 relative slip, ensure that clean subassembly 43 of ionic wind can adsorb the piece that the dyestripping produced, and be located the position that does not interfere the dyestripping action, product such as LCD module is got to dyestripping subassembly 42 department to outside anchor clamps clamp afterwards, dyestripping subassembly 42 tears the membrane to the product, clean subassembly 43 of ionic wind inhales away the piece that produces rapidly, avoid the foreign matter to adhere on the dyestripping product, guarantee that the dyestripping product is clean, effectively avoid influencing subsequent detection processes. After the film tearing is finished, the product is placed at the transfer platform 44 for temporary storage, and the film tearing of the next product is not influenced.
As shown in fig. 6, the film tearing assembly 42 includes a film tearing seat 421, a film tearing roller 422, a film tearing lifting cylinder 423, a film tearing clamping jaw 424, a film tearing clamping jaw cylinder 426, a clamping member lifting cylinder 427, and a film tearing rotating motor 428, the film tearing rotating motor 428 is mounted on the film tearing seat 421, the film tearing clamping jaw cylinder 426 is disposed on the clamping member lifting cylinder 427, the film tearing clamping jaw cylinder 426 pushes the film tearing clamping jaw 424 to open or close, the clamping member lifting cylinder 427 is disposed on the film tearing rotating motor 428, the film tearing roller 422 is disposed on the film tearing lifting cylinder 423, the film tearing lifting cylinder 423 is disposed on the film tearing seat 421 and is located on a front side of the film tearing clamping member, and the film tearing lifting cylinder 423 pushes the film tearing roller 422 to lift.
In the process of peeling, as shown in fig. 6, the attaching and carrying assembly 34 delivers the product to the upper side of the peeling device, the peeling lifting cylinder 423 pushes the peeling roller 422 to ascend to contact with the edge of the product, the peeling roller 422 rolls on the edge of the product to open the film on the product, meanwhile, the clamp lifting cylinder 427 pushes the film tearing clamping jaw 424 and the film tearing clamping jaw cylinder 426 to ascend, and the film tearing clamping jaw 424 is controlled to open by the film tearing clamping jaw cylinder 426, the tear film jaws 424 are then closed after aligning the tear film opening to grip the open film body and move downward, the opening of the film body is enlarged, the adhesion area of the protective film and the product is reduced, the protective film is prevented from being broken and remained on the product due to overlarge adhesion force of the protective film, then, the film tearing carrier plate slides on the film tearing transfer base 41, so that the whole protective film is slowly torn down, the protective film is completely torn down, and the film tearing quality is guaranteed. When the protective film is torn off, the film tearing rotating part drives the film tearing clamping jaw 424 to rotate, and the torn film body is thrown into a waste film collecting position.
In the fully automatic backlight assembling apparatus provided in this embodiment, as shown in fig. 7, the attaching mechanism 5 includes two attaching assemblies 51 arranged side by side left and right, the left and right attaching assemblies 51 respectively carry the backlight module to move in a staggered manner, and respectively attach the two backlight modules to the LCD module. Every laminating subassembly 51 is including laminating platform 511, laminating moving member 512 and two counterpoints pieces 513, laminating platform 511 sliding connection be in on the laminating moving member 512, just laminating platform 511's below is equipped with the second space of stepping down 514, two counterpoint pieces 513 along laminating platform 511's slip direction sets up around on the second space of stepping down 514, the second space of stepping down 514 provides the space of installing and placing for counterpoint pieces 513, avoids counterpoint pieces 513 to lead to the fact the interference each other with other each part.
When the bonding is performed, as shown in fig. 7, the bonding platform 511 on the left side is loaded with the backlight module and the position of the backlight module on the front side is detected by the alignment part 513 on the front side, the position of the backlight module on the bonding platform 511 is determined, meanwhile, the bonding and carrying assembly 34 grabs the LCD module and performs the position detection on the alignment part 513 on the back side, the position of the LCD module is determined, then the bonding platform 511 moves to the position of the LCD module on the bonding and carrying assembly 512, the bonding and carrying assembly 34 grabs the LCD module and the backlight module on the left side and performs the position detection on the backlight module, then the bonding platform 511 on the right side moves back and forth, because the bonding platform 511 on the right side moves back and forth in a staggered manner relative to the bonding platform 511 on the left side, when the backlight module on the bonding platform 511 on the left side is bonded with the LCD module, the bonding platform 511 on the right side immediately detects the position of the backlight module and transfers the backlight module to the bonding platform 511 on the right side, and then can realize that two backlight unit laminate side by side on same LCD module, can also laminate accurately, guarantee the laminating quality, two laminating subassemblies 51 of laminating process closely cooperate moreover, need not to wait for, are favorable to improving production efficiency.
In the full-automatic backlight assembly apparatus provided in this embodiment, as shown in fig. 8, the pressure maintaining blanking mechanism 6 includes a pressure maintaining blanking track 61, a blanking arm 62, a blanking arm moving module 63, a precision detecting module 64, a pressure maintaining blanking table 66, a pressure maintaining blanking table moving module 65, a pressure maintaining module 67, and a finished product throwing module 68, and the pressure maintaining module 67 is preferably an air cylinder. The two sides of the pressure maintaining blanking table 66 are respectively in sliding connection with the pressure maintaining blanking track 61 and the pressure maintaining blanking table moving module 65, the two sides of the blanking arm 62 are respectively in sliding connection with the pressure maintaining blanking track 61 and the blanking arm moving module 63, the blanking arm moving module 63 provides power for the blanking arm 62, the pressure maintaining blanking table moving module 65 provides power for the pressure maintaining blanking table 66, and the pressure maintaining blanking table moving module move along the pressure maintaining blanking track 61, so that the pressure maintaining blanking table 66 and the pressure maintaining blanking table moving module can be well connected. The pressure maintaining assembly 67 is arranged above the pressure maintaining material pressing platform 66, and the pressure maintaining assembly 67 performs pressure maintaining treatment on a product placed on the pressure maintaining material pressing platform 66 from top to bottom. The precision detection assembly 64 is arranged below the pressure maintaining discharge table 66, and is convenient for product assembly and attachment detection. The finished product throwing component 68 is arranged beside the blanking arm 62 and used for receiving defective products.
The LCD module and the backlight module which are attached are placed on the material pressing platform 66, the pressure maintaining assembly 67 provides pressure maintaining pressure to perform pressure maintaining treatment on the attached assembled products, so that even curved surface products can be perfectly attached, the precision detection assembly 64 moves to the product position to perform assembly precision detection on the products, the blanking arm moving module 63 drives the blanking arm 62 to move, the blanking arm 62 transfers qualified products to the material receiving mechanism 7, and unqualified products are transferred to the finished product material throwing assembly 68 position to be treated.
In the full-automatic backlight assembly apparatus provided in this embodiment, as shown in fig. 9, the material receiving mechanism 7 includes a first material receiving lifting assembly 71, a speed-multiplying chain assembly 72, a blocking jacking assembly 74, a material receiving operation platform 75, and a second material receiving lifting assembly 76, the first material receiving lifting assembly 71 is connected to a front end of the speed-multiplying chain assembly 72, the first material receiving lifting assembly 71 is configured to send a tray loaded with a product into the speed-multiplying chain assembly 72 to convey the tray forward to pick and place the product, and the second material receiving lifting assembly 76 is configured to send an empty tray into the speed-multiplying chain assembly 72 to convey the tray backward to receive the material. The second material receiving lifting assembly 76 is connected with the rear end of the speed multiplying chain assembly 72, the material receiving operation platforms 75 are arranged on two sides of the speed multiplying chain assembly 72, and a tray filled with products is transferred to an action platform so as to take away the products. The blocking jacking assembly 74 is arranged between the double-speed chain assemblies 72 and is used for blocking the tray from continuing to advance.
The first lifting and receiving material lifting component sends the material tray filled with the product to the speed doubling chain component 72, when the speed doubling chain component 72 forwards conveys the material tray filled with the product to the position corresponding to the material receiving operation platform 75, the lifting and stopping component 74 lifts the material tray filled with the product and translates the material tray to the material receiving operation platform 75 at two sides to take the product away, after the product is taken away, the material receiving operation platform 75 transfers the empty material tray to the speed doubling chain component 72, the speed doubling chain component 72 conveys the empty material tray to the second material receiving lifting component 76, the second material receiving lifting component 76 descends for a certain height after receiving the empty material tray and returns to the first material receiving lifting component 71 through the speed doubling chain component 72, the first material receiving lifting component 71 descends for the corresponding height to receive the empty material tray and ascends to receive the material and then sends the material to the speed doubling chain component 72 to repeat the above actions, the whole process is completed without other mechanisms, the space that both can reduce to occupy can also promote production efficiency greatly, can circulate the recovery charging tray moreover and remove to connect the material, convenient and fast.
As shown in fig. 10, the blocking and lifting assembly 74 includes a blocking and lifting seat 741, a second blocking cylinder 742, a lifting cylinder 743, a lifting carrier plate 744, a translation motor 745, and a translation roller 746, the second blocking cylinder 742 is disposed at a front side of the blocking and lifting seat 741, the lifting cylinder 743 is fixed on the blocking and lifting seat 741, the lifting carrier plate 744 is fixed on a pushing shaft of the lifting cylinder 743, the translation roller 746 is rotatably connected to the lifting carrier plate 744, and the translation motor 745 is in transmission connection with the translation roller 746. When the material tray full of products needs to be transferred to the material receiving operation platform 75, the second blocking cylinder 742 extends upwards to block the material tray from continuing to move forwards, and then the jacking cylinder 743 pushes the jacking support plate 744 to move upwards, so that the translation roller 746 is in contact with the material tray and moves towards the material receiving operation platform 75.
The present invention has been further described with reference to specific embodiments, but it should be understood that the detailed description should not be construed as limiting the spirit and scope of the present invention, and various modifications made to the above-described embodiments by those of ordinary skill in the art after reading this specification are within the scope of the present invention.

Claims (10)

1. The utility model provides a full-automatic equipment of being shaded, its characterized in that, includes board, feed mechanism, material loading laminating arm, dyestripping mechanism, laminating mechanism, pressurize unloading mechanism and receiving mechanism, dyestripping mechanism laminating mechanism reaches pressurize unloading mechanism sets gradually on the board, material loading laminating arm spanes dyestripping mechanism laminating mechanism reaches pressurize unloading mechanism sets up, feed mechanism sets up the front side of dyestripping mechanism, receiving mechanism sets up the rear side of pressurize unloading mechanism.
2. The full-automatic backlight assembly device according to claim 1, wherein the feeding mechanism comprises a feeding machine table, a photographing positioning assembly, an empty tray carrying assembly, two tray lifting assemblies and two tray feeding and discharging assemblies, the two tray feeding and discharging assemblies are arranged on the feeding machine table side by side, the tray lifting assembly is arranged at the front side of the tray feeding and discharging assemblies, the empty tray carrying assembly is arranged on the feeding machine table across the two tray lifting assemblies, and the photographing positioning assembly is arranged corresponding to the tray feeding and discharging assembly at the feeding side.
3. The full-automatic backlight assembly device according to claim 2, wherein the tray feeding and discharging assembly comprises a feeding and discharging base, a buffer member and a feeding and discharging member, the buffer member comprises a first blocking cylinder, a correcting member, a forward and reverse screw rod, a correcting motor, a first driving motor and a plurality of first rollers, the first rollers are disposed on the feeding and discharging base and are in transmission connection with the first driving motor, the correcting motor drives the forward and reverse screw rod to rotate, the correcting member is sleeved at two ends of the forward and reverse screw rod, the first blocking cylinder is disposed below the first rollers and stretches and retracts from a gap between the first rollers to block materials, the feeding and discharging member comprises a second driving motor and a plurality of rotating rods, the rotating rods are disposed on the feeding and discharging base and are in transmission connection with the second driving motor, every all the cover is equipped with a plurality of second gyro wheels that are the interval setting on the bull stick.
4. The full-automatic backlight assembly equipment according to claim 1, wherein the feeding and bonding arm comprises a first carrying base, a second carrying base, a feeding and carrying assembly and a bonding and carrying assembly, the first carrying base and the second carrying base are parallel to each other, the feeding and carrying assembly is disposed between the first carrying base and the second carrying base, two ends of the feeding and carrying assembly are slidably connected with the first carrying base and the second carrying base respectively, and the bonding and carrying assembly is slidably connected with the first carrying base.
5. The full-automatic backlight assembly device according to claim 1, wherein the film tearing mechanism comprises a film tearing transfer base, a transfer platform, a film tearing assembly and an ion wind cleaning assembly, a first abdicating space is provided in the middle of the film tearing transfer base, the film tearing assembly and the ion wind cleaning assembly are respectively connected with the film tearing transfer base in a sliding manner and are arranged in the first abdicating space, the ion wind cleaning assembly is arranged on one side of the front surface of the film tearing assembly and is aligned to the film tearing position, and the transfer platform is fixed on the top of the film tearing assembly.
6. The full-automatic backlight assembly device according to claim 5, wherein the film tearing assembly comprises a film tearing seat, a film tearing roller, a film tearing lifting cylinder, a film tearing clamping jaw cylinder, a clamping lifting cylinder and a film tearing rotating motor, the film tearing rotating motor is installed on the film tearing seat, the film tearing clamping jaw cylinder is arranged on the clamping lifting cylinder, the film tearing clamping jaw cylinder pushes the film tearing clamping jaw to open or close, the clamping lifting cylinder is arranged on the film tearing rotating motor, the film tearing roller is arranged on the film tearing lifting cylinder, the film tearing lifting cylinder is arranged on the film tearing seat and located on the front side of the film tearing clamping jaw, and the film tearing lifting cylinder pushes the film tearing roller to lift.
7. The full-automatic backlight assembly device according to claim 1, wherein the attaching mechanism comprises two attaching assemblies arranged side by side left and right, each attaching assembly comprises an attaching platform, an attaching moving member and two aligning members, the attaching platform is slidably connected to the attaching moving member, a second abdicating space is arranged below the attaching platform, and the aligning members are arranged in the second abdicating space along the sliding direction of the attaching platform.
8. The full-automatic backlight assembly device according to claim 1, wherein the pressure maintaining blanking mechanism comprises a pressure maintaining blanking track, a blanking arm moving module, a precision detecting component, a pressure maintaining blanking table moving module, a pressure maintaining component and a finished product throwing component, two sides of the pressure maintaining blanking table are respectively connected with the pressure maintaining blanking track and the pressure maintaining blanking table moving module in a sliding manner, two sides of the blanking arm are respectively connected with the pressure maintaining blanking track and the blanking arm moving module in a sliding manner, the pressure maintaining component is arranged above the pressure maintaining blanking table, the precision detecting component is arranged below the pressure maintaining blanking table, and the finished product throwing component is arranged beside the blanking arm.
9. The full-automatic backlight assembly device according to claim 1, wherein the material receiving mechanism comprises a first material receiving lifting assembly, a speed doubling chain assembly, a blocking jacking assembly, a material receiving operation table and a second material receiving lifting assembly, the first material receiving lifting assembly is connected with the front end of the speed doubling chain assembly, the second material receiving lifting assembly is connected with the rear end of the speed doubling chain assembly, the material receiving operation table is arranged on two sides of the speed doubling chain assembly, and the blocking jacking assembly is arranged between the speed doubling chain assemblies.
10. The apparatus of claim 9, wherein the blocking jacking assembly comprises a blocking jacking seat, a second blocking cylinder, a jacking support plate, a translation motor and a translation roller, the second blocking cylinder is disposed at a front side of the blocking jacking seat, the jacking cylinder is fixed on the blocking jacking seat, the jacking support plate is fixed on a pushing shaft of the jacking cylinder, the translation roller is rotatably connected to the jacking support plate, and the translation motor is in transmission connection with the translation roller.
CN202121363752.6U 2021-06-19 2021-06-19 Full-automatic backlight assembly equipment Active CN216912768U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202121363752.6U CN216912768U (en) 2021-06-19 2021-06-19 Full-automatic backlight assembly equipment

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202121363752.6U CN216912768U (en) 2021-06-19 2021-06-19 Full-automatic backlight assembly equipment

Publications (1)

Publication Number Publication Date
CN216912768U true CN216912768U (en) 2022-07-08

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN202121363752.6U Active CN216912768U (en) 2021-06-19 2021-06-19 Full-automatic backlight assembly equipment

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CN (1) CN216912768U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113290363A (en) * 2021-06-19 2021-08-24 东莞市鼎力自动化科技有限公司 Full-automatic backlight assembly equipment

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113290363A (en) * 2021-06-19 2021-08-24 东莞市鼎力自动化科技有限公司 Full-automatic backlight assembly equipment
CN113290363B (en) * 2021-06-19 2024-05-28 东莞市鼎力自动化科技有限公司 Full-automatic backlight assembly equipment

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