CN216330186U - Adhesive tape laminating equipment for fixing LED display module - Google Patents

Abstract

The utility model discloses gummed paper laminating equipment for fixing an LED display module, which comprises a rack, a guide rail conveying device, an X-axis sliding table device, a first gumming device and a second gumming device, wherein the guide rail conveying device is installed on a fixed table of the rack; the three-axis linkage all-dimensional adhesive tape sticking machine can feed materials in double tracks and stick adhesive tapes in a three-axis linkage all-dimensional manner, and is simple in structure, production efficiency is improved, and labor cost is reduced.

Description

Adhesive tape laminating equipment for fixing LED display module

Technical Field

The utility model relates to the field of adhesive tape laminating for fixing a display module, in particular to adhesive tape laminating equipment for fixing an LED display module.

Background

LED display screen (LED panel): the LED is a light emitting diode, which is abbreviated as LED in english. The display mode is that the display mode is controlled by a semiconductor light emitting diode, the general appearance of the display mode is that the display mode is composed of a plurality of light emitting diodes which are usually red, and characters are displayed by turning on and off of a lamp. A display screen for displaying various information such as characters, figures, images, animation, quotation, video, and video signals.

LED display screen need be fixed with gluing shell and display module assembly earlier through the adhesive tape laminating in the production equipment process, again seal glue, processes such as sealed and consolidate, all be artifical laminating basically in current production process and cause the askew phenomenon of subsides easily, perhaps the complicacy is by complicated and inflexible rubberizing paper equipment operation, and work efficiency is low and the operation degree of difficulty is big.

The prior art has defects and needs to be improved.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects in the prior art, the utility model provides adhesive tape laminating equipment for fixing an LED display module.

The technical scheme provided by the utility model is that the gummed paper laminating equipment for fixing the LED display module comprises a rack, a guide rail conveying device, an X-axis sliding table device, a first gumming device and a second gumming device, wherein the guide rail conveying device is installed on a fixing table of the rack, a rear cover is installed at the rear end of the rack fixing table, the X-axis sliding table device is horizontally installed on the front side surface of the rear cover, and the first gumming device and the second gumming device are respectively and symmetrically installed at the left end and the right end of the X-axis sliding table device.

Furthermore, the guide rail conveying device comprises a transmission guide rail assembly, a first jacking fixing assembly and a second jacking fixing assembly, wherein the first jacking fixing assembly and the second jacking fixing assembly are horizontally arranged on the fixed table in parallel, and the transmission guide rail assembly is arranged on the fixed table and is positioned above the first jacking fixing assembly and the second jacking fixing assembly; first jacking fixed subassembly includes first jacking cylinder, jacking board, first jacking cylinder is installed on the fixed station, the jacking board is through a plurality of optical axis slidable mounting on the fixed station, the jacking board is located the top of first jacking cylinder and links to each other with the output of first jacking cylinder, second jacking fixed subassembly is the same with first jacking fixed subassembly structure.

Further, the transmission guide rail assembly comprises a first ball screw, a second ball screw, a third ball screw, a fourth ball screw, a first fixed optical axis, a second fixed optical axis, a first rotating handle, a second rotating handle, a third rotating handle, a fourth rotating handle, a first screw nut seat, a second screw nut seat, a third screw nut seat, a fourth screw nut seat, a first guide rail main board, a first mirror image guide rail main board, a second mirror image guide rail main board, a first belt pulley set assembly and a second belt pulley set assembly; the first guide rail mainboard and the second guide rail mainboard are installed on a fixed table through a plurality of guide rail support frames in a longitudinal symmetrical mode, the first fixed optical axis and the second fixed optical axis transversely penetrate through the front end and the rear end of the first guide rail mainboard and the second guide rail mainboard, the first mirror image guide rail mainboard and the second mirror image guide rail mainboard are symmetrically installed on the first guide rail mainboard and the second guide rail mainboard respectively and are sleeved in the middle of the first fixed optical axis and the second fixed optical axis in a sliding mode, the first ball screw and the second ball screw penetrate through the rear ends of the first guide rail mainboard, the first mirror image guide rail mainboard, the second guide rail mainboard and the second mirror image guide rail mainboard respectively, the third ball screw and the fourth ball screw penetrate through the front ends of the first guide rail mainboard, the first mirror image guide rail mainboard, the second guide rail mainboard and the second mirror image guide rail mainboard, the first mirror image guide rail mainboard is sleeved on the second ball screw and the third ball screw through the first screw nut seat and the second screw nut seat On, the second mirror image guide rail mainboard cup joints on first and fourth ball screw through third lead screw nut seat and fourth lead screw nut seat, the right-hand member at first ball screw and fourth ball screw is installed to first rotatory handle and fourth rotatory handle, the left end at second ball screw and third ball screw is installed to second rotatory handle and third rotatory handle, first pulley group unit mount is on first guide rail mainboard and first mirror image guide rail mainboard, second pulley group unit mount is on second guide rail mainboard and second mirror image guide rail mainboard.

Further, the first belt pulley set assembly comprises a first motor, a conveying motor mounting plate, a rotating shaft mounting plate, a first driving wheel, a first driving synchronous wheel, a second driving synchronous wheel, a first rotating shaft, a first driven wheel, a first rotating wheel, a second rotating wheel, a third rotating wheel, a fourth rotating wheel, a first conveying belt and a second conveying belt; the utility model discloses a conveyor belt, including conveyor belt, first guide rail mainboard and first mirror image guide rail mainboard, the middle part at first guide rail mainboard and first mirror image guide rail mainboard is installed respectively to conveyor belt mounting panel and rotation axis mounting panel, first motor is installed on the conveyor belt mounting panel, the output of first motor runs through the conveyor belt mounting panel and links to each other with first action wheel, first rotation axis runs through the rotation and installs on conveyor belt mounting panel and rotation axis mounting panel, the left end of first rotation axis links to each other with first follow driving wheel, first initiative synchronizing wheel and the relative fixed cover of second initiative synchronizing wheel are in the inboard of first rotation axis, first follow driving wheel and first action wheel cup joint through the belt, the right flank both ends at first guide rail mainboard are installed respectively to first swiveling wheel and second swiveling wheel, third swiveling wheel and fourth swiveling wheel are installed respectively at the both ends of first mirror image guide rail mainboard left surface, first initiative synchronizing wheel, The first rotating wheel and the second rotating wheel are sleeved through a first conveying belt, and the second driving synchronizing wheel, the third rotating wheel and the fourth rotating wheel are sleeved through a second conveying belt; the second belt pulley set assembly is identical to the first belt pulley set assembly in structure.

Further, the X-axis sliding table device comprises a first rail beam, a fifth ball screw, a sixth ball screw, a fifth screw nut seat, a sixth screw nut seat, a second motor, a third motor, a first sliding plate and a second sliding plate; the first rail beam is horizontally arranged on the front side face of the rear platform cover, the fifth ball screw and the sixth ball screw are arranged in the first rail beam, the fifth screw nut seat and the sixth screw nut seat are respectively sleeved on the fifth ball screw and the sixth ball screw, the second motor and the third motor are respectively arranged at the left end and the right end of the front side face of the first rail beam, the output end of the second motor is connected with the fifth ball screw, the output end of the third motor is connected with the sixth ball screw, and the first sliding plate and the second sliding plate are respectively arranged on the fifth screw nut seat and the sixth screw nut seat and are horizontally connected with the first rail beam in a sliding manner.

Furthermore, the second rubberizing device comprises a Y-axis sliding table assembly and a rotary rubberizing assembly, the Y-axis sliding table assembly is installed at the bottom of the second sliding plate, and the rotary rubberizing assembly is installed at the bottom of the Y-axis sliding table assembly; the Y-axis sliding table assembly comprises a second rail beam, a fourth motor, a seventh ball screw, a seventh screw nut seat and a third sliding plate; the second rail beam is longitudinally and horizontally arranged at the bottom of the first sliding plate, the seventh ball screw is arranged in the second rail beam, the seventh screw nut seat is sleeved on the seventh ball screw, the fourth motor is arranged on the right side face of the rear end of the second rail beam, the output end of the fourth motor is connected with the seventh ball screw, and the third sliding plate is arranged on the seventh screw nut seat and is in sliding connection with the second rail beam.

Furthermore, the rotary rubberizing assembly comprises a Z-axis fixing plate, a first rotary cylinder, a rubberizing main plate, a swinging plate, a material tray, a feeding tongue, a first downward pressing cylinder, a connecting hinge, a pneumatic shear mounting plate, a first sliding table cylinder, a second sliding table cylinder, a pressing roller and a mechanism bottom plate; the Z-axis fixing plate is arranged at the bottom of the third sliding plate, the first rotary cylinder is arranged at the bottom of the Z-axis fixing plate, the rubberizing main plate is arranged at the bottom of the first rotary cylinder and is connected with the output end of the first rotary cylinder, the swinging plate is obliquely arranged at one side of the vertical surface of the rubberizing main plate, the material tray is rotatably arranged at the right end of the swinging plate through a rotating shaft, the feeding tongue is arranged at the left end of the swinging plate and is positioned at the same side with the material tray, the first down-pressing cylinder is arranged above the left end of the swinging plate, the connecting hinge is arranged at the left end of the swinging plate, the output end of the first down-pressing cylinder is connected with the connecting hinge, the mechanism bottom plate is arranged at the lower left corner of the rubberizing main plate, the first sliding table cylinder is arranged on the front side surface of the mechanism bottom plate, the pressing roller is arranged at the bottom of the first sliding table cylinder and is connected with the output end of the first sliding table cylinder, the pneumatic scissors mechanism is characterized in that the second sliding table cylinder is horizontally arranged on the rear side face of the mechanism bottom plate, the pneumatic scissors mounting plate is arranged on one side of the second sliding table cylinder and connected with the output end of the second sliding table cylinder, and the pneumatic scissors are arranged on the pneumatic scissors mounting plate.

Compared with the prior art, the double-rail material passing gummed paper pasting device has the advantages that double-rail material passing gummed paper pasting is achieved through the arrangement of the guide rail conveying device, the working efficiency is improved, three-axis linkage of an X axis, a Y axis and a Z axis is achieved through the arrangement of the X-axis sliding table device, the first gumming device and the second gumming device, gummed paper pasting is simultaneously carried out on the two sides, the equipment operation process is simplified, the production efficiency is further improved, the omnibearing rotary gummed paper pasting is achieved through the arrangement of the rotary gumming assembly, automatic glue breaking is achieved, the gummed paper is further pressed through the rollers, and the pasting degree is increased.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of a first jacking fixing assembly according to the present invention;

FIG. 3 is a schematic view of a drive rail assembly of the present invention;

FIG. 4 is a schematic view of an X-axis slide table apparatus according to the present invention.

FIG. 5 is a schematic view of a second tape dispenser according to the present invention.

The reference numbers indicated in the figures: a frame 1; a fixed table 2; a first jacking fixing component 3; a second jacking fixing component 4; a drive rail assembly 5; an X-axis sliding table device 6; a first rubberizing device 7; a second rubberizing device 8; a first jacking cylinder 31; a jacking plate 32; a first rail main plate 51; a first mirror guide main plate 52; a second rail main plate 53; a second mirror guide main plate 54; a first fixed optical axis 55; a second fixed optical axis 56; a first ball screw 57; a second ball screw 58; a third ball screw 59; a fourth ball screw 510; a first rotating handle 511; a second rotating handle 512; a third rotating handle 513; a fourth rotating handle 514; a first motor 515; a first drive pulley 516; a first driven wheel 517; a first rotation shaft 518; a second driving synchronizing wheel 519; a third rotating wheel 520; a fourth rotation wheel 521; a first pulley set assembly 522; a first rail beam 61; a second motor 62; a third motor 63; a second rail beam 81; a fourth motor 82; the third sliding plate 83; a first rotary cylinder 84; a rubberizing main board 85; a swing plate 86; a tray 87; a feed tongue 88; a first down-pressure cylinder 89; a connecting hinge 810; a mechanism chassis 811; a first slide cylinder 812; a press roller 813; a second slide cylinder 814; pneumatic scissors 815.

Detailed Description

In order to facilitate an understanding of the utility model, the utility model is described in more detail below with reference to the accompanying drawings and specific examples. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model.

The present invention will be described in detail with reference to the accompanying drawings.

Example 1: as shown in fig. 1 to 5, a fixed gummed paper laminating equipment of using of LED display module assembly, the fixed gummed paper laminating equipment of using of LED display module assembly includes frame 1, guide rail conveyer, X axle slip table device 6, first rubberizing device 7 and second rubberizing device 8, the guide rail conveyer is installed on fixed station 2 of frame 1, the backstage cover is installed to the rear end of frame 1 fixed station 2, 6 horizontal installation of X axle slip table device is on the leading flank at the backstage cover, both ends about X axle slip table device 6 are installed to first rubberizing device 7 and second rubberizing device 8 symmetry respectively.

Example 2: as shown in fig. 2, the guide rail transportation device includes a transmission guide rail assembly 5, a first jacking fixing assembly 3 and a second jacking fixing assembly 4, the first jacking fixing assembly 3 and the second jacking fixing assembly 4 are arranged to enable gummed paper to be more bonded while the jacking display module is matched with the first gumming device 7 and the second gumming device 8 for operation, the first jacking fixing assembly 3 and the second jacking fixing assembly 4 are horizontally arranged on the fixed table 2 in parallel, and the transmission guide rail assembly 5 is arranged on the fixed table 2 and located above the first jacking fixing assembly 3 and the second jacking fixing assembly 4; first jacking fixed subassembly 3 includes first jacking cylinder 31, jacking board 32, first jacking cylinder 31 is installed on fixed station 2, jacking board 32 is through a plurality of optical axis slidable mounting on fixed station 2, jacking board 32 is located the top of first jacking cylinder 31 and links to each other with the output of first jacking cylinder 31, second jacking fixed subassembly 4 is the same with first jacking fixed subassembly 3 structure. The first jacking cylinder 31 drives the jacking plate 32 to move up and down to fix the display module.

Example 3: as shown in fig. 3, a transmission guide rail assembly 5 is provided for the dual-rail transportation display module, wherein the transmission guide rail assembly 5 includes a first ball screw 57, a second ball screw 58, a third ball screw 59, a fourth ball screw 510, a first fixed optical axis 55, a second fixed optical axis 56, a first rotating handle 511, a second rotating handle 512, a third rotating handle 513, a fourth rotating handle 514, a first screw nut seat, a second screw nut seat, a third screw nut seat, a fourth screw nut seat, a first guide rail main plate 51, a first mirror image guide rail main plate 52, a second guide rail main plate 53, a second mirror image guide rail main plate 54, a first pulley set assembly 522 and a second pulley set assembly; the first guide rail main board 51 and the second guide rail main board 53 are longitudinally and symmetrically installed on the fixed table 2 through a plurality of guide rail support frames, the first fixed optical axis 55 and the second fixed optical axis 56 are transversely installed at the front end and the rear end of the first guide rail main board 51 and the second guide rail main board 53 in a penetrating manner, the first mirror image guide rail main board 52 and the second mirror image guide rail main board 54 are respectively symmetrical with the first guide rail main board 51 and the second guide rail main board 53 and are slidably sleeved in the middle of the first fixed optical axis 55 and the second fixed optical axis 56, the first ball screw 57 and the second ball screw 58 are installed at the rear ends of the first guide rail main board 51, the first mirror image guide rail main board 52, the second guide rail main board 53 and the second mirror image guide rail main board 54 in a penetrating manner, the third ball screw 510 and the fourth ball screw 510 are installed at the front ends of the first guide rail main board 51, the first mirror image guide rail main board 52, the second guide rail main board 53 and the second mirror image guide rail main board 54, the first mirror image guide rail main plate 52 is sleeved on the second ball screw 58 and the third ball screw 59 through the first screw nut seat and the second screw nut seat, the second mirror image guide rail main plate 54 is sleeved on the first ball screw 510 and the fourth ball screw 510 through the third screw nut seat and the fourth screw nut seat, the first rotating handle 511 and the fourth rotating handle 514 are installed at the right ends of the first ball screw 57 and the fourth ball screw 510, the second rotating handle 512 and the third rotating handle 513 are installed at the left ends of the second ball screw 58 and the third ball screw 59, the first belt pulley set assembly 522 is installed on the first guide rail main plate 51 and the first mirror image guide rail main plate 52, and the second belt pulley set assembly is installed on the second guide rail main plate 53 and the second mirror image guide rail main plate 54. When the first rotating handle 511 and the fourth rotating handle 514 rotate, the first mirror image guide rail main board 52 can be controlled to move left and right, so that the gap between the first guide rail main board 51 and the first mirror image guide rail main board 52 is controlled to realize the transportation of display modules with different sizes, and similarly, the second rotating handle 512 and the third rotating handle 513 can be rotated to control the gap between the second guide rail main board 53 and the second mirror image guide rail main board 54.

The first pulley set assembly 522 comprises a first motor 515, a conveying motor mounting plate, a rotating shaft mounting plate, a first driving wheel 516, a first driving synchronizing wheel, a second driving synchronizing wheel 519, a first rotating shaft 518, a first driven wheel 517, a first rotating wheel, a second rotating wheel, a third rotating wheel 520, a fourth rotating wheel 521, a first conveying belt and a second conveying belt; the middle part at first guide rail mainboard 51 and first mirror image guide rail mainboard 52 is installed respectively to conveying motor mounting panel and rotation axis mounting panel, first motor 515 is installed on the conveying motor mounting panel, the output of first motor 515 runs through the conveying motor mounting panel and links to each other with first action wheel 516, first rotation axis 518 runs through to rotate and installs on conveying motor mounting panel and rotation axis mounting panel, the left end of first rotation axis 518 with first follow driving wheel 517 link to each other, first initiative synchronizing wheel and second initiative synchronizing wheel 519 fixed relatively cup joints the inboard at first rotation axis 518, first follow driving wheel 517 and first action wheel 516 cup joint through the belt, first swiveling wheel and second swiveling wheel are installed respectively at the right side both ends of first guide rail mainboard 51, third swiveling wheel 520 and fourth swiveling wheel 521 are installed respectively at the both ends of first mirror image guide rail mainboard 52 left surface, the first driving synchronous wheel, the first rotating wheel and the second rotating wheel are sleeved through a first conveying belt, and the second driving synchronous wheel 519, the third rotating wheel 520 and the fourth rotating wheel 521 are sleeved through a second conveying belt; the second pulley set assembly is identical in structure to the first pulley set assembly 522. The first motor 515 drives the first driving wheel 516 to rotate, so that the first driven wheel 517 rotates to drive the first rotating shaft 518 to rotate, and the rotation of the first rotating shaft 518 drives the first driving synchronizing wheel and the second driving synchronizing wheel 519 to rotate, so that the first conveying belt and the second conveying belt convey the display module.

Example 4: as shown in fig. 4, an X-axis slide table device 6 is provided for X-axis slide rubberizing, the X-axis slide table device 6 including a first rail beam 61, a fifth ball screw, a sixth ball screw, a fifth screw nut base, a sixth screw nut base, a second motor 62, a third motor 63, a first slide plate, and a second slide plate; the first rail beam 61 is horizontally arranged on the front side surface of the rear hood, the fifth ball screw and the sixth ball screw are arranged in the first rail beam 61, the fifth screw nut seat and the sixth screw nut seat are respectively sleeved on the fifth ball screw and the sixth ball screw, the second motor 62 and the third motor 63 are respectively arranged at the left end and the right end of the front side surface of the first rail beam 61, the output end of the second motor 62 is connected with the fifth ball screw, the output end of the third motor 63 is connected with the sixth ball screw, and the first sliding plate and the second sliding plate are respectively arranged on the fifth screw nut seat and the sixth screw nut seat and are horizontally connected with the first rail beam 61 in a sliding manner. The second motor 62 and the third motor 63 respectively drive the fifth ball screw and the sixth ball screw to rotate, so that the first sliding plate and the second sliding plate are driven to move left and right.

Example 5: as shown in fig. 5, a second rubberizing device 8 is provided for Y-axis and Z-axis movement and rubberizing, the second rubberizing device 8 includes a Y-axis sliding table assembly and a rotary rubberizing assembly, the Y-axis sliding table assembly is installed at the bottom of the second sliding plate, and the rotary rubberizing assembly is installed at the bottom of the Y-axis sliding table assembly; the Y-axis sliding table assembly comprises a second rail beam 81, a fourth motor 82, a seventh ball screw, a seventh screw nut seat and a third sliding plate 83; the second rail beam 81 is longitudinally and horizontally arranged at the bottom of the first sliding plate, the seventh ball screw is arranged in the second rail beam 81, the seventh screw nut seat is sleeved on the seventh ball screw, the fourth motor 82 is arranged on the right side surface of the rear end of the second rail beam 81, the output end of the fourth motor 82 is connected with the seventh ball screw, and the third sliding plate 83 is arranged on the seventh screw nut seat and is in sliding connection with the second rail beam 81. The fourth motor 82 drives the seventh ball screw to rotate, thereby moving the third sliding plate 83 along the Y-axis.

The rotary rubberizing assembly comprises a Z-axis fixing plate, a first rotary cylinder 84, a rubberizing main plate 85, a swinging plate 86, a material tray 87, a feeding tongue 88, a first downward pressing cylinder 89, a connecting hinge 810, a pneumatic scissors 815, a pneumatic scissors mounting plate, a first sliding table cylinder 812, a second sliding table cylinder 814, a pressing roller 813 and a mechanism bottom plate 811; the Z-axis fixing plate is installed at the bottom of the third sliding plate 83, the first rotating cylinder 84 is installed at the bottom of the Z-axis fixing plate, the rubberizing main plate 85 is installed at the bottom of the first rotating cylinder 84 and connected with the output end of the first rotating cylinder 84, the swinging plate 86 is installed at one side of the vertical surface of the rubberizing main plate 85 in an inclined manner, the tray 87 is installed at the right end of the swinging plate 86 in a rotating manner through a rotating shaft, the feeding tongue 88 is installed at the left end of the swinging plate 86 and located at the same side as the tray 87, the first depressing cylinder 89 is installed above the left end of the swinging plate 86, the connecting hinge 810 is installed at the left end of the swinging plate 86, the output end of the first depressing cylinder 89 is connected with the connecting hinge 810, the mechanism bottom plate 811 is installed at the lower left corner of the rubberizing main plate 85, the first sliding table cylinder 812 is installed at the front side surface of the mechanism bottom plate 811, the pressing roller 813 is installed at the bottom of the first sliding table cylinder 812 and connected with the output end of the first sliding table cylinder 812, the second sliding table cylinder 814 is horizontally installed on the rear side surface of the mechanism bottom plate 811, the pneumatic shear mounting plate is installed on one side of the second sliding table cylinder 814 and connected with the output end of the second sliding table cylinder 814, and the pneumatic shears 815 are installed on the pneumatic shear mounting plate; the first rubberizing device 7 and the second rubberizing device 8 have the same structure. First revolving cylinder 84 drives the rotatory rubberizing of the whole rotatory rubberizing subassembly, the adhesive tape gets into feeding tongue 88, first air cylinder 89 drives feeding tongue 88 and pushes down and make the adhesive tape bonding on display module's frame, and charging tray 87 blowing presses down the adhesive tape that the gyro wheel 813 pressed the laminating under the drive of first slip table cylinder 812, and after the rubberizing was accomplished, pneumatic scissors 815 cut the adhesive tape.

The working principle of the utility model is as follows: rotating the first rotating handle and the fourth rotating handle to enable the first mirror image guide rail main board to move left and right to adjust the gap between the first guide rail main board and the first mirror image guide rail main board to be suitable for the width of a feeding display module, similarly rotating the second rotating handle and the third rotating handle to adjust the second guide rail main board and the second mirror image guide rail main board to be the same gap, driving a first driving wheel to rotate by a first motor of a first belt pulley component to enable a first driven wheel to rotate to drive a first rotating shaft to rotate, driving a first driving synchronous wheel and a second driving synchronous wheel to rotate by the first rotating shaft to enable a first transmission belt and a second transmission belt to transmit the display module to the position above a first jacking fixed component, similarly driving the display module to the position above a second jacking fixed component by a second belt pulley component, driving a jacking plate to move up and down to jack the jacking fixed display module by a first jacking cylinder, the display module is fixed in the simultaneous jacking of second jacking cylinder, the adhesive tape gets into the feeding tongue, first air cylinder drive feeding tongue is pressed down and is made the adhesive tape bonding on the frame of display module, the charging tray blowing, press down the adhesive tape that the gyro wheel pressed the laminating under the drive of first slip table cylinder, X axle slip table device drive first rubberizing device and second rubberizing device remove along the X axle, Y axle slip table device drive rotatory rubberizing subassembly Y axle removes the rubberizing, rotatory edge-changing rubberizing after first rotatory cylinder drive whole rotatory rubberizing subassembly has pasted on one side of the display module, after the rubberizing is accomplished, pneumatic scissors cut the adhesive tape, first rubberizing device is the same with second rubberizing device theory of operation.

The technical features mentioned above are combined with each other to form various embodiments which are not listed above, and all of them are regarded as the scope of the present invention described in the specification; also, modifications and variations may be suggested to those skilled in the art in light of the above teachings, and it is intended to cover all such modifications and variations as fall within the true spirit and scope of the utility model as defined by the appended claims.

Claims (7)

1. The utility model provides a fixed gummed paper laminating equipment of using of LED display module assembly, a serial communication port, LED display module assembly is fixed to use gummed paper laminating equipment includes frame, guide rail conveyer, X axle slip table device, first rubberizing device and second rubberizing device, the guide rail conveyer is installed on the fixed station of frame, the backstage cover is installed to the rear end of frame fixed station, X axle slip table device horizontal installation is on the leading flank of backstage cover, both ends about X axle slip table device are installed to first rubberizing device and second rubberizing device symmetry respectively.

2. The gummed paper laminating equipment for fixing the LED display module according to claim 1, wherein the guide rail conveying device comprises a transmission guide rail assembly, a first jacking fixing assembly and a second jacking fixing assembly, the first jacking fixing assembly and the second jacking fixing assembly are horizontally arranged on a fixing table in parallel, and the transmission guide rail assembly is arranged on the fixing table and positioned above the first jacking fixing assembly and the second jacking fixing assembly; first jacking fixed subassembly includes first jacking cylinder, jacking board, first jacking cylinder is installed on the fixed station, the jacking board is through a plurality of optical axis slidable mounting on the fixed station, the jacking board is located the top of first jacking cylinder and links to each other with the output of first jacking cylinder, second jacking fixed subassembly is the same with first jacking fixed subassembly structure.

3. The apparatus of claim 2, wherein the transmission guide rail assembly comprises a first ball screw, a second ball screw, a third ball screw, a fourth ball screw, a first fixed optical axis, a second fixed optical axis, a first rotating handle, a second rotating handle, a third rotating handle, a fourth rotating handle, a first screw nut seat, a second screw nut seat, a third screw nut seat, a fourth screw nut seat, a first guide rail main plate, a first mirror image guide rail main plate, a second mirror image guide rail main plate, a first pulley set assembly and a second pulley set assembly; the first guide rail mainboard and the second guide rail mainboard are installed on a fixed table through a plurality of guide rail support frames in a longitudinal symmetrical mode, the first fixed optical axis and the second fixed optical axis transversely penetrate through the front end and the rear end of the first guide rail mainboard and the second guide rail mainboard, the first mirror image guide rail mainboard and the second mirror image guide rail mainboard are symmetrically installed on the first guide rail mainboard and the second guide rail mainboard respectively and are sleeved in the middle of the first fixed optical axis and the second fixed optical axis in a sliding mode, the first ball screw and the second ball screw penetrate through the rear ends of the first guide rail mainboard, the first mirror image guide rail mainboard, the second guide rail mainboard and the second mirror image guide rail mainboard respectively, the third ball screw and the fourth ball screw penetrate through the front ends of the first guide rail mainboard, the first mirror image guide rail mainboard, the second guide rail mainboard and the second mirror image guide rail mainboard, the first mirror image guide rail mainboard is sleeved on the second ball screw and the third ball screw through the first screw nut seat and the second screw nut seat On, the second mirror image guide rail mainboard cup joints on first and fourth ball screw through third lead screw nut seat and fourth lead screw nut seat, the right-hand member at first ball screw and fourth ball screw is installed to first rotatory handle and fourth rotatory handle, the left end at second ball screw and third ball screw is installed to second rotatory handle and third rotatory handle, first pulley group unit mount is on first guide rail mainboard and first mirror image guide rail mainboard, second pulley group unit mount is on second guide rail mainboard and second mirror image guide rail mainboard.

4. The gluing paper laminating equipment for fixing the LED display module according to claim 3, wherein the first belt pulley set assembly comprises a first motor, a conveying motor mounting plate, a rotating shaft mounting plate, a first driving wheel, a first driving synchronous wheel, a second driving synchronous wheel, a first rotating shaft, a first driven wheel, a first rotating wheel, a second rotating wheel, a third rotating wheel, a fourth rotating wheel, a first conveying belt and a second conveying belt; the utility model discloses a conveyor belt, including conveyor belt, first guide rail mainboard and first mirror image guide rail mainboard, the middle part at first guide rail mainboard and first mirror image guide rail mainboard is installed respectively to conveyor belt mounting panel and rotation axis mounting panel, first motor is installed on the conveyor belt mounting panel, the output of first motor runs through the conveyor belt mounting panel and links to each other with first action wheel, first rotation axis runs through the rotation and installs on conveyor belt mounting panel and rotation axis mounting panel, the left end of first rotation axis links to each other with first follow driving wheel, first initiative synchronizing wheel and the relative fixed cover of second initiative synchronizing wheel are in the inboard of first rotation axis, first follow driving wheel and first action wheel cup joint through the belt, the right flank both ends at first guide rail mainboard are installed respectively to first swiveling wheel and second swiveling wheel, third swiveling wheel and fourth swiveling wheel are installed respectively at the both ends of first mirror image guide rail mainboard left surface, first initiative synchronizing wheel, The first rotating wheel and the second rotating wheel are sleeved through a first conveying belt, and the second driving synchronizing wheel, the third rotating wheel and the fourth rotating wheel are sleeved through a second conveying belt; the second belt pulley set assembly is identical to the first belt pulley set assembly in structure.

5. The gluing paper attaching equipment for fixing the LED display module according to claim 1, wherein the X-axis sliding table device comprises a first rail beam, a fifth ball screw, a sixth ball screw, a fifth screw nut seat, a sixth screw nut seat, a second motor, a third motor, a first sliding plate and a second sliding plate; the first rail beam is horizontally arranged on the front side face of the rear platform cover, the fifth ball screw and the sixth ball screw are arranged in the first rail beam, the fifth screw nut seat and the sixth screw nut seat are respectively sleeved on the fifth ball screw and the sixth ball screw, the second motor and the third motor are respectively arranged at the left end and the right end of the front side face of the first rail beam, the output end of the second motor is connected with the fifth ball screw, the output end of the third motor is connected with the sixth ball screw, and the first sliding plate and the second sliding plate are respectively arranged on the fifth screw nut seat and the sixth screw nut seat and are horizontally connected with the first rail beam in a sliding manner.

6. The gluing paper laminating equipment for fixing the LED display module according to claim 1, wherein the second gluing device comprises a Y-axis sliding table assembly and a rotary gluing assembly, the Y-axis sliding table assembly is installed at the bottom of the second sliding plate, and the rotary gluing assembly is installed at the bottom of the Y-axis sliding table assembly; the Y-axis sliding table assembly comprises a second rail beam, a fourth motor, a seventh ball screw, a seventh screw nut seat and a third sliding plate; the second rail beam is longitudinally and horizontally arranged at the bottom of the first sliding plate, the seventh ball screw is arranged in the second rail beam, the seventh screw nut seat is sleeved on the seventh ball screw, the fourth motor is arranged on the right side face of the rear end of the second rail beam, the output end of the fourth motor is connected with the seventh ball screw, and the third sliding plate is arranged on the seventh screw nut seat and is in sliding connection with the second rail beam.

7. The gluing paper laminating equipment for fixing the LED display module according to claim 6, wherein the rotary gluing component comprises a Z-axis fixing plate, a first rotary cylinder, a gluing main plate, a swinging plate, a material tray, a feeding tongue, a first downward pressing cylinder, a connecting hinge, a pneumatic shear mounting plate, a first sliding table cylinder, a second sliding table cylinder, a pressing roller and a mechanism bottom plate; the Z-axis fixing plate is arranged at the bottom of the third sliding plate, the first rotary cylinder is arranged at the bottom of the Z-axis fixing plate, the rubberizing main plate is arranged at the bottom of the first rotary cylinder and is connected with the output end of the first rotary cylinder, the swinging plate is obliquely arranged at one side of the vertical surface of the rubberizing main plate, the material tray is rotatably arranged at the right end of the swinging plate through a rotating shaft, the feeding tongue is arranged at the left end of the swinging plate and is positioned at the same side with the material tray, the first down-pressing cylinder is arranged above the left end of the swinging plate, the connecting hinge is arranged at the left end of the swinging plate, the output end of the first down-pressing cylinder is connected with the connecting hinge, the mechanism bottom plate is arranged at the lower left corner of the rubberizing main plate, the first sliding table cylinder is arranged on the front side surface of the mechanism bottom plate, the pressing roller is arranged at the bottom of the first sliding table cylinder and is connected with the output end of the first sliding table cylinder, the pneumatic shear mounting plate is mounted on one side of the second sliding table cylinder and connected with the output end of the second sliding table cylinder, and the pneumatic shears are mounted on the pneumatic shear mounting plate; the first rubberizing device and the second rubberizing device are identical in structure.

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