CN214797364U - Full-automatic pad pasting equipment - Google Patents
Full-automatic pad pasting equipment Download PDFInfo
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- CN214797364U CN214797364U CN202121290926.0U CN202121290926U CN214797364U CN 214797364 U CN214797364 U CN 214797364U CN 202121290926 U CN202121290926 U CN 202121290926U CN 214797364 U CN214797364 U CN 214797364U
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Abstract
The application relates to full-automatic film sticking equipment, which relates to the field of wafer processing and comprises a processing table, wherein a placing table for placing a fixing ring and a wafer is arranged on the processing table in a sliding manner, an unwinding roller, a first winding roller and a second winding roller are arranged on the processing table, and a pressing roller for pressing an adhesive tape is arranged on the processing table; the processing table is provided with a moving assembly for driving the placing table to move, a lifting assembly for driving the pressing roller to move up and down and a cutting assembly for cutting the adhesive tape. This application has the effect that effectively improves and paste sticky tape efficiency.
Description
Technical Field
The application relates to the field of wafer processing, in particular to full-automatic film sticking equipment.
Background
The wafer is generally circular, and in a specific processing process, the wafer needs to be cut into a plurality of wafers according to actual requirements. For making things convenient for cutting device to cut the wafer, before the cutting, need the staff to place the wafer between solid fixed ring, reuse the sticky tape and paste whole solid fixed ring and whole wafer to fix the wafer in the middle of solid fixed ring, make in subsequent operation process, can directly place the assigned position of solid fixed ring in cutting device and cut, thereby ensured the accuracy and the convenience of cutting.
In view of the above-mentioned related technologies, the inventor believes that, at present, the wafer is fixed in the middle of the fixing ring by manually adhering the tape, and although the adhering accuracy can be ensured, the adhering efficiency is low, and the overall processing speed is affected.
SUMMERY OF THE UTILITY MODEL
In order to improve the efficiency of pasting the sticky tape, this application provides a full-automatic pad pasting equipment.
The application provides a full-automatic pad pasting equipment adopts following technical scheme:
a full-automatic film sticking device comprises a processing table, wherein a placing table for placing a fixing ring and a wafer is arranged on the processing table in a sliding mode, an unwinding roller, a first winding roller and a second winding roller are arranged on the processing table, and a pressing roller for pressing an adhesive tape is arranged on the processing table;
the processing table is provided with a moving assembly for driving the placing table to move, a lifting assembly for driving the pressing roller to move up and down and a cutting assembly for cutting the adhesive tape.
Through adopting above-mentioned technical scheme, utilize the removal subassembly to remove and place the platform for place the platform and move towards the press roll, press the roller and press the sticky tape on solid fixed ring and wafer, make the sticky tape can paste on solid fixed ring and wafer, utilize the cutting subassembly to cut the sticky tape simultaneously, thereby can accomplish the operation of pasting the sticky tape, paste with adopting the manual work and compare, improved pasting efficiency effectively.
Optionally, the processing platform is provided with two mounting plates, the lifting assembly comprises a supporting rod arranged between the two mounting plates, a lifting cylinder is arranged on the supporting rod, the lifting cylinder is connected with a lifting plate, and the pressing roller is arranged on the lifting plate.
Through adopting above-mentioned technical scheme, utilize lift cylinder drive lifter plate to remove to reach and utilize the pressure roller to press the sticky tape so that the purpose of sticky tape adhesion on sticky tape and wafer.
Optionally, the moving assembly includes a push-pull cylinder disposed on the processing table, the push-pull cylinder is connected to a moving plate disposed on the processing table, and the placing table is disposed on the moving plate.
By adopting the technical scheme, the moving plate is pushed and pulled by the push-pull air cylinder, so that the placing table can be close to or far away from the press roller.
Optionally, the movable plate is provided with a bearing plate, the movable plate is provided with a guide rod penetrating through the bearing plate, the movable plate is provided with a jacking cylinder, and an output shaft of the jacking cylinder is connected to the bearing plate.
Through adopting above-mentioned technical scheme, utilize jacking cylinder drive bearing board to reciprocate for place the platform and can upwards move, thereby help pressing the compression roller to press the sticky tape on wafer and solid fixed ring.
Optionally, two material returning rods are arranged on the bearing plate in parallel, two ends of each material returning rod are connected with material returning plates, and the material returning plates are connected with the bearing plate in a sliding manner;
the material returning device comprises a bearing plate, a first transmission belt, a second transmission belt, a first material returning plate, a second material returning plate, a first material returning motor, a second material returning plate and a third material returning plate, wherein the bearing plate is provided with a rotating rod, two ends of the rotating rod are respectively provided with a rotating wheel, the bearing plate is provided with a material returning motor, an output shaft of the material returning motor is provided with a first roller, the first roller and one rotating wheel are sleeved with the first transmission belt, and the two material returning plates positioned on one side of the first transmission belt are both connected to the first transmission belt;
the bearing plate is provided with a second roller matched with the other rotating wheel for use, the second roller and the rotating wheel are sleeved with a second driving belt, and the two material returning plates positioned on one side of the second driving belt are connected to the second driving belt.
Through adopting above-mentioned technical scheme, material returned motor starts the back, and first drive belt and second drive belt accessible drive material returned board and remove and drive two material returned poles and remove to can press from both sides and place the waste material sticky tape that the bench produced after the cutting, make the sticky tape and the waste material sticky tape phase separation of pasting on the wafer after the cutting, and then portable platform of placing takes off fixed ring and the wafer that is fixed.
Optionally, the axis of rotation is installed to the mounting panel, and the dancer roll is installed to the one end of axis of rotation, and it has revolving cylinder to articulate on the mounting panel, and revolving cylinder's output shaft articulates in the other end of axis of rotation, installs the overlap joint dish that supplies dancer roll overlap joint on the mounting panel.
By adopting the technical scheme, the tension degree of the adhesive tape can be adjusted by utilizing the pulling effect of the adjusting roller on the adhesive tape, and meanwhile, the adjusting roller is driven to rotate by virtue of the rotating cylinder, so that the adjusting roller can adapt to the adhesive tape tightened due to sticking, and the tension degree of the adhesive tape can be better adjusted by the adjusting roller; at the same time, the possibility of the adjusting roller moving too low in the vertical direction is reduced by means of the overlapping disk.
Optionally, an adjusting disc is mounted on the rotating shaft, the adjusting disc is provided with a notch, an inductor for inducing the notch is arranged on the mounting plate, and the inductor is connected to the controller;
install on the mounting panel and unreel the motor, unreel the motor and connect in the controller, install the driving gear on unreeling the output shaft of motor, install driven gear on unreeling the roller's the roller, driving gear and driven gear pass through the third drive belt and connect.
Through adopting above-mentioned technical scheme, along with the sticky tape is pasted on solid fixed ring and wafer, the sticky tape after unreeling is tightened up gradually, rotates the cylinder simultaneously and drives axis of rotation and adjustment disk rotation, and when the breach of adjustment disk rotated to the inductor, the inductor produced the signal and transmits for the controller, and the controller control unreels the motor and starts to can drive the unreeling roller and unreel the sticky tape.
Optionally, be equipped with the mounting bar on the mounting panel, the cam on the mounting bar is located to the overlap joint dish, is equipped with the slip ring on the mounting panel, and the cover is equipped with the regulation pole on the slip ring, and the inductor is located on the regulation pole.
Through adopting above-mentioned technical scheme, through the extreme low position that rotates the adjustable regulating roller of cam and can move down in vertical direction, after rotating the cam, the corresponding slide adjusting pole for the breach can better be sensed to the inductor.
Optionally, the cutting assembly comprises two movable cylinders respectively arranged on the two mounting plates, a placing plate is connected between output shafts of the two movable cylinders, a rotating motor is mounted on the placing plate, an output shaft of the rotating motor is connected with a mounting block, and a hob is arranged on the mounting block.
Through adopting above-mentioned technical scheme, the sticky tape is pasted on solid fixed ring and wafer back, utilizes the moving cylinder to drive and places the board and move down for the hobbing cutter contact sticky tape utilizes to rotate the motor and drives the installation piece and rotate, thereby utilizes the hobbing cutter to cut the sticky tape.
Optionally, the machining table is provided with two sliding rails, the two mounting plates are respectively provided with a sliding seat matched with the sliding rails, the machining table is provided with two positioning plates, a screw rod is arranged between the two positioning plates, a sliding block is arranged on the mounting plate, the screw rod penetrates through the sliding block and is in threaded connection with the sliding block, and the machining table is provided with a power motor connected to the screw rod.
Through adopting above-mentioned technical scheme, utilize the power motor drive lead screw to rotate to two mounting panels of accessible sliding block drive remove, make the sticky tape can paste on wafer and solid fixed ring.
In summary, the present application includes at least one of the following beneficial technical effects:
1. according to the automatic adhesive tape sticking device, the push-pull air cylinder is used for driving the placing table to move, the pressing roller is used for pressing the adhesive tape, so that the adhesive tape can be stuck on the fixing ring and the wafer, and the adhesive tape is cut by means of the hob, so that the adhesive tape can be stuck on the fixing ring and the wafer, the purpose of automatically sticking the adhesive tape is further achieved, the operation is simple, the automation degree is high, and the adhesive tape sticking efficiency is effectively improved;
2. the tension degree of the adhesive tape is adjusted by using the adjusting roller, so that the adhesive tape can be better stuck on the fixing ring and the wafer;
3. this application utilizes the inductor to respond to the breach on the adjustment disk to make the controller control unreel the roller and unreel the sticky tape, thereby can continuously paste solid fixed ring and wafer.
Drawings
Fig. 1 is a schematic overall structure diagram of a full-automatic film laminating device according to an embodiment of the present application.
Fig. 2 is a schematic structural view of the moving plate and the placing table according to the embodiment of the present application.
FIG. 3 is a schematic diagram of a first roller, a runner, and a first belt according to an embodiment of the present disclosure.
FIG. 4 is a schematic diagram of the engagement relationship of the second roller, the pulley, and the second belt in an embodiment of the present application.
Fig. 5 is a schematic view of the installation plate and the processing table in the embodiment of the present application.
Fig. 6 is a schematic view of the matching relationship between the rotating cylinder and the adjusting roller according to the embodiment of the present application.
FIG. 7 is a schematic view of the structure of the pressing roller and the hob cutter according to the embodiment of the present application.
Fig. 8 is an enlarged view of a portion a in fig. 6.
FIG. 9 is a schematic structural diagram of a guide roller, a conveying roller, a tension roller and a second wind-up roller according to an embodiment of the application.
Fig. 10 is a schematic view of a matching relationship between a moving block and a receiving plate according to an embodiment of the present application.
Description of reference numerals: 1. a processing table; 11. a moving guide rail; 12. a push-pull cylinder; 13. a stopper; 14. sliding the rail; 15. a power motor; 151. positioning a plate; 152. a screw rod; 2. moving the plate; 20. a guide bar; 21. a support plate; 211. a support rod; 212. a negative pressure plate; 213. a support platform; 214. a sliding guide rail; 215. a material returning motor; 2151. a first roller; 216. a second roller; 217. rotating the rod; 2171. a rotating wheel; 2172. a first drive belt; 2173. a second belt; 22. jacking a cylinder; 23. a placing table; 231. a placement port; 232. a negative pressure port; 24. a material returning rod; 241. a material returning plate; 3. mounting a plate; 31. a connecting rod; 32. a sliding block; 33. a support bar; 331. a lifting cylinder; 332. a lifting plate; 333. pressing the roller; 34. a rotating shaft; 341. a regulating roller; 342. rotating the cylinder; 343. a rotating plate; 344. a connecting plate; 345. mounting a bar; 3451. a lap joint disc; 35. an adjusting disk; 351. a notch; 36. a slip ring; 361. adjusting a rod; 362. an inductor; 37. a static eliminator; 4. unwinding rollers; 41. an unwinding motor; 411. a driving gear; 42. a driven gear; 421. a third belt; 422. a driving pinion gear; 5. a first wind-up roll; 51. a driven pinion gear; 511. a fourth belt; 6. a moving cylinder; 61. placing the plate; 62. rotating the motor; 63. mounting blocks; 64. hobbing cutters; 7. a material collecting plate; 71. a guide roller; 72. a conveying roller; 73. a tension roller; 731. a moving block; 74. a second wind-up roll; 741. a second gear; 742. a fifth belt; 75. a material receiving motor; 76. a sliding hole; 77. and (4) sliding strips.
Detailed Description
The present application is described in further detail below with reference to figures 1-10.
The embodiment of the application discloses full-automatic pad pasting equipment. Referring to fig. 1 and 2, a full-automatic film laminating apparatus includes a processing table 1, on which a moving plate 2 is mounted through a moving guide 11 on the processing table 1. The machining table 1 is provided with a push-pull air cylinder 12, and an output shaft of the push-pull air cylinder 12 is connected to the moving plate 2 so as to drive the moving plate 2 to move on the moving guide rail 11. The machining table 1 is provided with a stopper 13 at one end of the moving rail 11 to reduce the possibility that the moving plate 2 slides out of the moving rail 11.
Referring to fig. 2, a guide rod 20 is installed at four corners of the movable plate 2, the four guide rods 20 jointly penetrate through a bearing plate 21, two jacking cylinders 22 are arranged on the movable plate 2, output shafts of the jacking cylinders 22 are connected to the bearing plate 21, and the bearing plate 21 can be driven to move in the vertical direction by the aid of the jacking cylinders 22. The bearing plate 21 is supported by a bearing rod 211 to be provided with a placing platform 23, the center of the placing platform 23 is provided with a placing opening 231, the bearing plate 21 is provided with a negative pressure plate 212, the negative pressure plate 212 is provided with a negative pressure pipe, the negative pressure pipe is connected with an air extracting device such as an air extracting pump, and the placing platform 23 is provided with a negative pressure opening 232 for the negative pressure pipe to be inserted. After placing solid fixed ring on placing platform 23, solid fixed ring is coaxial with placing mouth 231, and negative pressure mouth 232 is located solid fixed ring's below, starts air exhaust device to usable negative pressure pipe is fixed solid fixed ring on placing platform 23 to solid fixed ring's adsorption.
Referring to fig. 2, a susceptor 213 positioned in the placing port 231 is mounted on the negative pressure plate 212, and the wafer is held by the susceptor 213. Similarly, a negative pressure tube is also installed in the susceptor 213, and the wafer can be fixed in the placing port 231 by the suction action of the negative pressure tube on the wafer.
Referring to fig. 2 and 3, the support plate 21 is provided with two parallel material returning rods 24, two material returning plates 241 are vertically installed at two ends of the material returning rods 24, the support plate 21 is provided with sliding guide rails 214 located at two sides of the placing table 23, and the two material returning plates 241 at two ends of the same material returning rod 24 are respectively used in cooperation with the two sliding guide rails 214.
Referring to fig. 3 and 4, the material returning motor 215 close to one of the sliding guide rails 214 is arranged on the supporting plate 21, a first roller 2151 is arranged on an output shaft of the material returning motor 215, a second roller 216 close to the other sliding guide rail 214 is arranged on the supporting plate 21 through an installation seat, a rotating rod 217 is arranged on the supporting plate 21 through the installation seat, and rotating wheels 2171 are arranged at both ends of the rotating rod 217. The first roller 2151 and one of the rollers 2171 are connected by a first belt 2172, the second roller 216 and the other roller 2171 are connected by a second belt 2173, and both stripper plates 241 adjacent to the first belt 2172 are connected to the first belt 2172, and both stripper plates 241 adjacent to the second belt 2173 are connected to the second belt 2173, so that when the stripper motor 215 is activated, the two stripper rods 24 are driven toward or away from each other. The adhesive tape is adhered to the fixing ring and the wafer after bypassing the material returning rod 24, and after the adhesive tape is adhered and cut, the adhesive tape adhered to the fixing ring can be separated from adhesive tape waste generated after cutting by the material returning rod 24 which is close to each other, so that the placing table 23 can be moved conveniently to take down the fixing ring and the wafer.
Referring to fig. 5, two sliding rails 14 are arranged on the processing table 1, the mounting plates 3 are mounted on the sliding rails 14 through sliding seats, and the two mounting plates 3 are connected through a connecting rod 31. The power motor 15 is installed on the processing table 1, the two positioning plates 151 are arranged on the processing table 1, the screw rod 152 is installed between the two positioning plates 151, and the output shaft of the power motor 15 is connected to the screw rod 152 to drive the screw rod 152 to rotate. The mounting plate 3 is provided with the sliding block 32, and the screw 152 penetrates through the sliding block 32 and is in threaded connection with the sliding block 32, so that when the screw 152 rotates, the two mounting plates 3 can be driven to move simultaneously.
Referring to fig. 5 and 6, an unwinding roller 4 wound with an adhesive tape and a first winding roller 5 for winding release paper are arranged between the two mounting plates 3, an unwinding motor 41 is mounted on the mounting plates 3, and a driving gear 411 is mounted on an output shaft of the unwinding motor 41. The roller shaft of unreeling roller 4 runs through mounting panel 3 and installs driven gear 42, and driving gear 411 and driven gear 42 pass through third drive belt 421 and connect, utilize unreeling motor 41 can drive unreeling roller 4 and unreel the sticky tape. Install driving pinion 422 on the roller of unreeling roller 4, the roller of first wind-up roll 5 runs through mounting panel 3 and installs driven pinion 51, and driving pinion 422 and driven pinion 51 pass through fourth drive belt 511 to utilize unreeling motor 41 can drive simultaneously and unreel roller 4 and first wind-up roll 5 and rotate.
Referring to fig. 7, a support rod 33 is installed between the two mounting plates 3, a lifting cylinder 331 is installed on the support rod 33, an output shaft of the lifting cylinder 331 is connected with a lifting plate 332, a pressing roller 333 is installed on the lifting plate 332, and the adhesive tape unwound by the unwinding roller 4 passes through the lower portion of the pressing roller 333. When the placing table 23 moves below the pressing roller 333, the lifting cylinder 331 drives the pressing roller 333 to move downwards, the jacking cylinder 22 drives the bearing plate 21 to move upwards, so that the pressing roller 333 can press the adhesive tape, the adhesive tape can be adhered to the fixing ring and the wafer, and the power motor 15 and the screw rod 152 are used for driving the mounting plate 3 to move, so that the adhesive tape can be adhered to the whole fixing ring and the wafer.
Referring to fig. 6 and 8, in order to enable the adhesive tape to be smoothly adhered to the fixing ring and the wafer, the mounting plate 3 is provided with a rotating shaft 34, the rotating shaft 34 is provided with an adjusting roller 341 through a connecting plate 344, the adhesive tape passes around the adjusting roller 341 and passes below the pressing roller 333, and the tension of the adhesive tape can be adjusted by using the pulling action of the adjusting roller 341 on the adhesive tape. The sticky tape after unreeling reduces at the bonding in-process length gradually, for making regulating roller 341 adapt to the sticky tape that tightens up because of length reduction, it has rotation cylinder 342 to articulate on the mounting panel 3, installs rotating plate 343 on the axis of rotation 34, and the output shaft of rotation cylinder 342 articulates in rotating plate 343, utilizes rotation cylinder 342 to rotate in order to drive regulating roller 341 to make the rate of tension of the regulating tape that regulating roller 341 can be better.
Referring to fig. 8, in order to reduce the excessive rotation angle of the adjusting roller 341 driven by the rotating cylinder 342 after the tape is unwound, a mounting bar 345 is disposed on the mounting plate 3, the mounting bar 345 is provided with a lap disc 3451 for the connecting plate 344 to lap, and the lap disc 3451 is configured as a cam in this embodiment.
Referring to fig. 8, the rotating shaft 34 is provided with an adjusting disc 35, the adjusting disc 35 is provided with a notch 351, the mounting plate 3 is provided with a sliding ring 36, the sliding ring 36 is sleeved with an adjusting rod 361, the adjusting rod 361 is provided with an inductor 362 for inducing the notch 351, the inductor 362 is electrically connected with a controller, and the controller is connected to the unwinding motor 41. When the sticky tape tightens up, rotation cylinder 342 drives dancer 341 and adjustment disk 35 and rotates simultaneously, and when breach 351 of adjustment disk 35 rotated to inductor 362 department, inductor 362 sensed breach 351 in order to produce the signal to give the controller with the signal transmission, make the steerable unwinding motor 41 of controller start, thereby control unwinding roller 4 unreels the sticky tape. Then the cylinder 342 is rotated to drive the adjusting roller 341 to rotate, so that the tightness of the adhesive tape is adjusted by the adjusting roller 341, and the notch 351 is far away from the inductor 362, and the operation is repeated in such a circulating manner, so that the purpose of intermittently unreeling the adhesive tape can be achieved. Meanwhile, when the cam is rotated to adjust the lowest position to which the adjustment roller 341 can move down in the vertical direction, the adjustment rod 361 can be correspondingly slid, so that the sensor 362 can better sense the notch 351 on the adjustment disc 35.
Referring to fig. 6, in order to reduce static electricity generated by friction between the adhesive tape and the adjustment roller 341 and to prevent the adhesive tape from being normally stuck, a static electricity eliminator 37 is disposed between the two mounting plates 3 on the adjustment roller 341 side.
Referring to fig. 7, the two mounting plates 3 are respectively provided with a movable cylinder 6, the output shafts of the two movable cylinders 6 are jointly connected with a placing plate 61, the placing plate 61 is provided with a rotating motor 62, the output shaft of the rotating motor 62 is provided with a mounting block 63, and the mounting block 63 is provided with a hob 64 through a mounting rod. After the tape is adhered to the fixing ring and the wafer, the rotating motor 62 drives the mounting block 63 to rotate, thereby driving the hob 64 to cut the tape.
Referring to fig. 9 and 10, the processing table 1 is provided with a material receiving plate 7, and the material receiving plate 7 is provided with a guide roller 71, two conveying rollers 72, a tension roller 73 located between the two conveying rollers 72, and a second wind-up roller 74 located on one side of the conveying rollers 72 in this order. The material receiving plate 7 is provided with a material receiving motor 75, an output shaft of the material receiving motor 75 is provided with a first gear, a roller shaft of the second winding roller 74 is provided with a second gear 741, and the first gear and the second gear 741 are connected through a fifth transmission belt 742. Waste materials generated after the adhesive tape is cut firstly pass through the lower part of the guide roller 71, then sequentially pass through the upper part of the first conveying roller 72, the lower part of the tensioning roller 73 and the upper part of the second conveying roller 72, and finally are wound by the second winding roller 74.
Referring to fig. 10, the material receiving plate 7 is provided with a sliding hole 76, the material receiving plate 7 is provided with sliding bars 77 located at two sides of the sliding hole 76, a roller shaft of the second winding roller 74 penetrates through the sliding hole 76 and is provided with a moving block 731, and the moving block 731 is provided with a sliding groove for the sliding bars 77 to be clamped in. The self gravity of the second winding roller 74 can drive the moving block 731 to move on the sliding bar 77, so that the tension of the adhesive tape waste can be adjusted by the self gravity, and the adhesive tape waste can be wound better by the second winding roller 74.
The implementation principle of the full-automatic film sticking equipment in the embodiment of the application is as follows: after the fixing ring and the wafer are placed on the placing table 23, the placing table 23 is moved to the position below the pressing roller 333 by using the push-pull air cylinder 12, the supporting plate 21 is pushed to move upwards by using the jacking air cylinder 22, the placing table 23 is close to the pressing roller 333, and the pressing roller 333 is driven to move downwards by using the lifting air cylinder 331 so as to press the adhesive tape, so that the adhesive tape is adhered to the fixing ring and the wafer. The mounting plate 3 is driven to move by the power motor 15, so that the adhesive tape is completely adhered to the fixing ring and the wafer, after the adhesion is completed, the adhesive tape is cut by the hob 64, the adhesive tape on the fixing ring and the wafer is separated from the generated adhesive tape waste by the material returning rod 24, and the fixing ring and the wafer can be taken out by the movable placing table 23. Compare with the mode that adopts the manual work to paste the sticky tape, this embodiment has reached the effect of automatic sticky tape of pasting, has effectively improved the efficiency of pasting the sticky tape.
The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.
Claims (10)
1. The utility model provides a full-automatic pad pasting equipment which characterized in that: the processing device comprises a processing table (1), wherein a placing table (23) for placing a fixing ring and a wafer is arranged on the processing table (1) in a sliding mode, an unwinding roller (4), a first winding roller (5) and a second winding roller (74) are arranged on the processing table (1), and a pressing roller (333) for pressing an adhesive tape is arranged on the processing table (1);
the processing table (1) is provided with a moving component for driving the placing table (23) to move, a lifting component for driving the pressing roller (333) to move up and down and a cutting component for cutting the adhesive tape.
2. The full-automatic film laminating equipment of claim 1, wherein: processing platform (1) is last to be equipped with two mounting panels (3), and lifting unit is equipped with lift cylinder (331) including locating bracing piece (33) between two mounting panels (3) on bracing piece (33), and lift cylinder (331) are connected with lifter plate (332), press compression roller (333) to locate on lifter plate (332).
3. The full-automatic film laminating equipment of claim 2, wherein: the moving assembly comprises a push-pull cylinder (12) arranged on the machining table (1), the push-pull cylinder (12) is connected with a moving plate (2) located on the machining table (1), and the placing table (23) is arranged on the moving plate (2).
4. The full-automatic film laminating equipment of claim 3, wherein: the movable plate (2) is provided with a bearing plate (21), a guide rod (20) penetrating through the bearing plate (21) is arranged on the movable plate (2), a jacking cylinder (22) is arranged on the movable plate (2), and an output shaft of the jacking cylinder (22) is connected to the bearing plate (21).
5. The full-automatic film laminating equipment of claim 4, wherein: two material returning rods (24) are arranged on the bearing plate (21) in parallel, two ends of each material returning rod (24) are connected with material returning plates (241), and the material returning plates (241) are connected with the bearing plate (21) in a sliding mode;
a rotating rod (217) is installed on the bearing plate (21), rotating wheels (2171) are installed at two ends of the rotating rod (217), a material returning motor (215) is arranged on the bearing plate (21), a first roller (2151) is installed on an output shaft of the material returning motor (215), a first driving belt (2172) is sleeved on the first roller (2151) and one of the rotating wheels (2171), and two material returning plates (241) located on one side of the first driving belt (2172) are connected to the first driving belt (2172);
the bearing plate (21) is provided with a second roller (216) matched with another rotating wheel (2171) for use, the second roller (216) and the rotating wheel (2171) are sleeved with a second driving belt (2173), and the two material discharging plates (241) positioned on one side of the second driving belt (2173) are connected to the second driving belt (2173).
6. The full-automatic film laminating equipment of claim 2, wherein: the mounting plate (3) is provided with a rotating shaft (34), the adjusting roller (341) is installed at one end of the rotating shaft (34), the mounting plate (3) is hinged with a rotating cylinder (342), an output shaft of the rotating cylinder (342) is hinged at the other end of the rotating shaft (34), and the mounting plate (3) is provided with a lap joint disc (3451) for overlapping the adjusting roller (341).
7. The full-automatic film laminating equipment of claim 6, wherein: an adjusting disc (35) is mounted on the rotating shaft (34), a notch (351) is formed in the adjusting disc (35), an inductor (362) used for sensing the notch (351) is arranged on the mounting plate (3), and the inductor (362) is connected to the controller;
install on mounting panel (3) and unreel motor (41), unreel motor (41) and connect in the controller, install driving gear (411) on the output shaft that unreels motor (41), install driven gear (42) on the roller of unreeling roller (4), driving gear (411) and driven gear (42) are connected through third drive belt (421).
8. The full-automatic film laminating equipment of claim 7, wherein: be equipped with mounting bar (345) on mounting panel (3), overlap joint dish (3451) is for locating the cam on mounting bar (345), is equipped with slip ring (36) on mounting panel (3), and the cover is equipped with on slip ring (36) and adjusts pole (361), and inductor (362) are located on adjusting pole (361).
9. The full-automatic film laminating equipment of claim 2, wherein: the cutting assembly comprises two moving cylinders (6) which are respectively arranged on two mounting plates (3), a placing plate (61) is connected between output shafts of the two moving cylinders (6), a rotating motor (62) is mounted on the placing plate (61), an output shaft of the rotating motor (62) is connected with a mounting block (63), and a hob (64) is arranged on the mounting block (63).
10. The full-automatic film laminating equipment of claim 2, wherein: install two slip rails (14) on processing platform (1), two mounting panel (3) install respectively with slip rail (14) complex seat that slides, be equipped with two locating plate (151) on processing platform (1), install lead screw (152) between two locating plate (151), install sliding block (32) on mounting panel (3), lead screw (152) run through sliding block (32) and with sliding block (32) threaded connection, be equipped with on processing platform (1) and connect in power motor (15) of lead screw (152).
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CN202121290926.0U CN214797364U (en) | 2021-06-09 | 2021-06-09 | Full-automatic pad pasting equipment |
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CN202121290926.0U CN214797364U (en) | 2021-06-09 | 2021-06-09 | Full-automatic pad pasting equipment |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114571875A (en) * | 2022-03-05 | 2022-06-03 | 浙江梦神家居股份有限公司 | Full-automatic ink-jet point location machine |
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2021
- 2021-06-09 CN CN202121290926.0U patent/CN214797364U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114571875A (en) * | 2022-03-05 | 2022-06-03 | 浙江梦神家居股份有限公司 | Full-automatic ink-jet point location machine |
CN114571875B (en) * | 2022-03-05 | 2022-11-11 | 浙江梦神家居股份有限公司 | Full-automatic ink-jet point location machine |
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