CN216827011U - Rotary machining mechanism of gluing curing equipment - Google Patents

Rotary machining mechanism of gluing curing equipment Download PDF

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Publication number
CN216827011U
CN216827011U CN202123166239.0U CN202123166239U CN216827011U CN 216827011 U CN216827011 U CN 216827011U CN 202123166239 U CN202123166239 U CN 202123166239U CN 216827011 U CN216827011 U CN 216827011U
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China
Prior art keywords
bearing
tool
assembly
turntable
seat
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CN202123166239.0U
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Chinese (zh)
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叶国强
黎昌龙
梅表天
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Juli Aoxuan Technology Zhejiang Co ltd
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ZHEJIANG JULI ELECTRICAL MACHINERY EQUIPMENT CO Ltd
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Abstract

The utility model discloses a rotary processing mechanism of gluing curing equipment, which comprises a turntable and a rotary motor; the rotating motor is connected with the turntable and drives the turntable to rotate; a turntable assembly hole is also formed in the turntable, and a workpiece mounting tool is arranged in the turntable assembly hole; the workpiece mounting tool is in contact with the tool rotating assembly, and the tool rotating assembly drives the workpiece mounting tool to rotate; in the utility model, the workpiece is arranged in the workpiece mounting tool on the turntable, the turntable is connected with the rotating motor, and the rotating motor drives the turntable to rotate, so that the utility model can quickly carry out the gluing work, thereby improving the gluing efficiency; simultaneously, when the glue dripping mechanism at the spreading machine carries out the rubber coating to the work piece, the work piece installation frock on the carousel rotated under frock rotating assembly's drive, makes the utility model discloses a rubber coating is more even, and the rubber coating effect is better.

Description

Rotary machining mechanism of gluing curing equipment
Technical Field
The utility model relates to a manufacturing and designing field of rubber coating equipment, more specifically the utility model relates to a rotatory processing agency of rubber coating curing equipment that says so.
Background
The glue spreader is also called as a coating machine, a spreading machine, an automatic glue sprayer and the like, and is mainly used for spreading liquid glue on a workpiece needing to be processed; compared with manual gluing, the gluing machine can enable the gluing effect to be more uniform, and the gluing efficiency to be improved to a certain degree;
at present, the glue spreading mode of the glue spreader on the market mostly adopts a mode of moving a glue dripping mechanism to realize automatic glue spreading of the glue spreader, but the glue dripping mechanism can reset the next workpiece after glue dripping is finished by the mode, so that the glue spreading efficiency of the glue spreader can be greatly reduced; and for some workpieces needing to be coated with glue on the inner surface, the conventional gluing mode cannot evenly coat the workpieces, so that the gluing quality of the gluing machine is low.
Disclosure of Invention
The utility model overcomes prior art's is not enough, provides simple structure, reasonable in design, work efficiency is higher, the rubber coating quality is higher a rotatory processing agency of rubber coating solidification equipment.
In order to solve the technical problem, the technical scheme of the utility model as follows:
a rotary processing mechanism of gluing curing equipment comprises a turntable and a rotary motor; the rotating motor is connected with the turntable and drives the turntable to rotate;
a turntable assembly hole is also formed in the turntable, and a workpiece mounting tool is arranged in the turntable assembly hole;
the workpiece mounting tool is in contact with the tool rotating assembly, and the tool rotating assembly drives the workpiece mounting tool to rotate.
Further, the workpiece mounting tool comprises a spacer bush and a tool seat; a spacer space is arranged in the spacer, the tool seat is arranged in the spacer space, and a bearing is also arranged between the tool seat and the spacer; a tool space is arranged in the tool seat, and a workpiece needing gluing is arranged in the tool space and is fixed; the spacer bush space and the tool space are both provided with openings, and the openings of the spacer bush space and the tool space are arranged at the same end.
Further, a spacer bearing assembling groove is formed in the inner surface of the spacer, a tool seat bearing assembling groove is formed in the outer surface of the tool seat, and the tool seat bearing assembling groove and the spacer bearing assembling groove correspond to each other; the internal surface of bearing and the external surface contact of frock seat, the external surface of bearing and the internal surface contact of spacer.
Further, the bearing comprises a first bearing and a second bearing; a first spacer bearing assembling groove and a second spacer bearing assembling groove are formed in two ends of the inner surface of the spacer, and a first tool holder bearing assembling groove and a second tool holder bearing assembling groove are formed in two ends of the outer surface of the tool holder;
the first spacer bush bearing assembling groove and the first tool holder bearing assembling groove are provided with an intersecting region, the first bearing is arranged in the intersecting region, the upper surface of the first bearing is contacted with the side wall of the first tool holder bearing assembling groove, and the lower surface of the first bearing is contacted with the side wall of the first spacer bush bearing assembling groove;
the second spacer bush bearing assembling groove and the second tool holder bearing assembling groove are provided with an intersecting region, the second bearing is arranged in the intersecting region, the upper surface of the second bearing is contacted with the side wall of the second tool holder bearing assembling groove, and the lower surface of the second bearing is contacted with the side wall of the second spacer bush bearing assembling groove; and a bearing limiting groove is further formed in the bearing assembling groove of the second tool seat, a limiting ring is arranged in the bearing limiting groove, and the limiting ring is in contact with the lower surface of the second bearing.
Further, a tool seat is in contact with the tool rotating assembly, and one end of the tool seat is provided with a connecting groove; the connecting groove is in contact with a connecting block of the tool rotating assembly and rotates under the driving of the connecting block.
Further, the workpiece mounting tool also comprises a tool seat rotating and positioning assembly, wherein the tool seat rotating and positioning assembly comprises a steel ball, a spring sleeve and a positioning pin; the spring sleeve is fixed on the spacer sleeve, the positioning pin is arranged at one end of the spring sleeve and is contacted with one end of the spring in the spring sleeve, and the steel ball is arranged at one end of the spring sleeve, which is far away from the positioning pin, and is contacted with the other end of the spring in the spring sleeve; and a positioning hole corresponding to the steel ball is formed in the outer surface of the tool seat, and the steel ball enters the positioning hole under the action of the spring sleeve.
Further, the tool rotating assembly comprises a tool rotating mounting plate, a tool rotating bearing seat, a tool rotating motor, a synchronous belt and a synchronous wheel; the synchronous wheel comprises a main synchronous wheel and an auxiliary synchronous wheel, wherein the main synchronous wheel is arranged on an output shaft of the tool rotating motor, the auxiliary synchronous wheel is arranged on a rotating shaft of the tool rotating bearing seat, and the synchronous belt is meshed with the main synchronous wheel and the auxiliary synchronous wheel and drives the main synchronous wheel and the auxiliary synchronous wheel; the tool rotating bearing seat, the synchronous belt and the synchronous wheel are arranged on the upper surface of the tool rotating mounting plate, and the linking block is arranged on a rotating shaft of the tool rotating bearing seat.
Furthermore, the tool rotating assembly also comprises a connection adjusting assembly, so that the connection block is contacted with or separated from the connection groove; the connection adjusting assembly comprises a connection cylinder, a connection plate, a connection bearing and a connection guide rod; the connecting cylinder is arranged on the lower surface of the connecting plate, and a cylinder arm of the connecting cylinder penetrates through the connecting plate to be in contact with the lower surface of the tool rotating mounting plate; the linking bearing is arranged on the tool rotating installation plate, the linking bearing penetrates through the linking guide rod, and one end of the linking guide rod is in contact with the upper surface of the linking plate.
Furthermore, openings are formed in two ends of the spacer bush space, and the opening in one end of the spacer bush space corresponds to the opening in the tool space; the tool seat is provided with one end of the connecting groove and is in contact with the connecting block through an opening at the other end of the spacer bush space.
Furthermore, the turntable is circular, and the turntable assembly holes are distributed on the turntable in a circular manner; the output end of the rotating motor is connected with the central point of the lower surface of the turntable; the rotating motor is arranged on the table top plate; the tool rotating assembly is also arranged on the table panel and is positioned below the turntable assembling hole.
The beneficial effects of the utility model are that:
in the utility model, the workpiece is arranged in the workpiece mounting tool on the turntable, the turntable is connected with the rotating motor, and the rotating motor drives the turntable to rotate, so that the utility model can quickly carry out the gluing work, thereby improving the gluing efficiency; simultaneously, when the glue dripping mechanism at the spreading machine carries out the rubber coating to the work piece, the work piece installation frock on the carousel rotated under frock rotating assembly's drive, makes the utility model discloses a rubber coating is more even, and the rubber coating effect is better.
The tool seat is arranged in the spacer space, and the workpiece is arranged in the tool seat; the bearing between the tool seat and the spacer sleeve enables the tool seat to rotate, and further drives the workpiece to rotate, so that the gluing of the utility model is more uniform; the connection of the bearing is more firm and stable due to the arrangement of the spacer sleeve bearing assembly groove and the tool holder bearing assembly groove.
After the workpiece is coated with glue under the action of the tool rotating assembly, the tool rotating assembly stops moving; and by the position of frock seat limited frock seat of frock seat rotational positioning subassembly, make it stop rotating, and then make the work piece get into other mechanisms under quiet state and process, make and be equipped with the utility model discloses a spreading machine possesses higher rubber coating quality.
The arrangement of the linking and adjusting component ensures that the rotation of the tool seat can be controlled; when the utility model needs to be coated with glue, the joining block enters the joining groove under the action of the joining adjusting component; after the gluing is finished, the joining block leaves the joining groove under the action of the joining adjusting assembly, so that the workpiece is driven by the rotary disc to be processed in the next step.
Drawings
Fig. 1 is a front overall structure diagram of a gluing and curing device.
Fig. 2 is a back overall structure diagram of a gluing and curing device.
Fig. 3 is a structure diagram of the protective cover in the protective space.
Fig. 4 is a front structure view of all components on the deck plate.
Fig. 5 is a matching structure diagram of a carrying tray, a tray lifting assembly, a carrying rail, a tray limiting block and a workpiece adjusting assembly.
Fig. 6 is a block diagram of a workpiece adjustment assembly.
Fig. 7 is a structure view of the rotating base and the rack.
Fig. 8 is a view showing the structure of the adjustment mounting plate.
FIG. 9 is a schematic view of the tray lift assembly.
Fig. 10 is a front matching structure view of the feeding assembly, the discharging assembly and the workpiece processing part.
FIG. 11 is a back side matching structure view of the feeding assembly, the discharging assembly and the workpiece processing part.
Fig. 12 is a structure view of the cooperation of the turntable and the workpiece mounting tool.
Fig. 13 is a view showing a structure of a turntable and a rotary motor.
Fig. 14 is a view showing a structure of a work mounting tool.
Fig. 15 is a sectional view of the workpiece mounting tool.
Fig. 16 is a view showing the structure of the charging assembly.
Fig. 17 is a structure view of the blanking assembly.
Fig. 18 is a front view of the glue dispensing mechanism.
Fig. 19 is a back side view of the glue dispensing mechanism.
Figure 20 is a view of the tooling rotation assembly.
Fig. 21 is a structural view of the detection mechanism.
Fig. 22 is a structural view of a drip curing mechanism.
Fig. 23 is a structural diagram of embodiment 1.
The reference numbers in the figures:
1. a protective cover; 2. a frame portion; 3. a workpiece carrying mechanism; 4. a workpiece machining section; 5. installing a tool for a workpiece; 6. detecting a display device; 11. a shield support post; 12. a protective cover plate; 13. a protection space; 14. a transfer rail feed inlet; 15. a conveying track feed outlet; 16. opening a door of the protective cover; 17. a control button box; 21. a table top plate; 22. a rack support column; 23. a frame cover plate; 24. a rack space; 25. a power switch; 26. ground feet; 31. carrying a rail; 32. carrying the tray; 33. a feeding assembly; 34. a blanking assembly; 35. a workpiece adjustment assembly; 37. a tray lifting assembly; 38. a tray limiting block; 39. a workpiece fixing block; 40. rotating the cylinder block; 41. a turntable; 42. a glue dripping mechanism; 44. a detection mechanism; 45. a glue dripping and curing mechanism; 46. a rotating electric machine; 47. a tool rotating assembly; 49. the tool seat rotates the positioning component; 51. a spacer sleeve; 52. a tool seat; 61. a display screen; 62. a control host; 63. a mouse; 64. a keyboard; 71. a first feeding drag chain; 72. a first feeding support; 73. a first loading tow chain guard plate; 74. a second feeding drag chain; 75. a second feeding support; 76. a second feeding drag chain guard plate; 77. a feeding sliding table fixing seat; 81. a first baiting tow chain; 82. a first blanking support; 83. a first baiting towline guard plate; 84. a second blanking drag chain; 85. a second blanking support; 86. a second blanking drag chain guard plate; 87. a blanking sliding table fixing seat; 331. feeding upright posts; 332. a feeding mounting plate; 333. feeding an electric cylinder module; 334. a feeding sliding plate; 335. a feeding vertical cylinder; 336. a feeding rotary cylinder; 337. a feeding gas claw mounting plate; 338. a feeding paw cylinder; 341. blanking the upright post; 342. a blanking mounting plate; 343. blanking the electric cylinder module; 344. a blanking sliding plate; 345. blanking is carried out on the vertical cylinder; 346. a blanking rotary cylinder; 347. a blanking gas claw mounting plate; 348. a blanking paw cylinder; 351. an adjusting cylinder; 352. a rotating base; 353. adjusting a paw cylinder; 354. adjusting the mounting plate; 355. a rack; 356. a rack adjustment hole; 357. a rotating shaft; 358. a rotating bearing; 359. a bearing tooth; 360. a bearing mounting hole; 361. adjusting a limiting block; 362. a buffer; 363. adjusting the mounting block; 371. a tray lifting cylinder; 372. a tray lifting guide rod; 373. a pallet lift bearing; 374. a tray connecting block; 375. a tray fixing block; 381. a first tray limiting plate; 382. a second pallet limit plate; 411. a turntable assembly hole; 420. a glue outlet valve; 421. a glue dispenser; 422. dispensing a support; 423. dripping glue on the upright post; 424. a glue dripping assembling plate; 425. a glue dripping mounting plate; 426. a glue dripping cylinder; 427. a glue dripping slide rail; 428. a glue dripping sliding plate; 429. a glue outlet valve bracket; 430. a first mounting plate; 431. a second mounting plate; 432. reinforcing ribs; 434. a glue dripping sliding block; 435. a glue dripping bearing; 436. a glue dripping fixing ring; 439. detecting a sliding block; 440. detecting the through hole; 441. detecting the bracket; 442. detecting a cylinder; 443. a holder; 444. detecting the connecting rod; 445. detecting a camera; 446. a camera mounting plate; 447. detecting a light source; 448. a light source mounting plate; 449. a first holder; 450. a second holder; 451. curing the upright post; 452. curing the mounting plate; 453. a curing light; 454. curing the baffle; 455. a baffle mounting bracket; 456. a baffle plate opening; 471. a joining block; 472. the tool rotates the mounting plate; 474. a tool rotating motor; 475. a synchronous belt; 478. a main synchronizing wheel; 479. a secondary synchronizing wheel; 480. a first rotating bearing housing; 481. a second rotating bearing block; 482. a first secondary synchronizing wheel; 483. a second secondary synchronizing wheel; 484. a connecting cylinder; 485. a connector tile; 486. connecting the bearings; 487. connecting the guide rod; 491. steel balls; 492. a spring housing; 493. positioning pins; 511. a spacer space; 513. a first spacer bearing assembly groove; 514. a second spacer bearing assembly groove; 521. a tooling space; 523. a joining groove; 524. a first tool holder bearing assembly groove; 525. a second tool holder bearing assembly groove; 526. a bearing limit groove; 527. a limiting ring; 531. a first bearing; 532. a second bearing.
Detailed Description
The present invention will be further described with reference to the accompanying drawings and specific embodiments. It should be noted that the embodiments are only specific illustrations of the present invention, and the purpose thereof is to make the technical solution of the present invention better understood by those skilled in the art, and should not be considered as limitations of the present invention.
Example 1:
as shown in fig. 23, a rotary processing mechanism of a glue curing apparatus includes a turntable 41 and a rotary motor 46; the rotating motor 46 is connected with the turntable 41 and drives the turntable 41 to rotate; a turntable 41 assembling hole is further formed in the turntable 41, and a workpiece mounting tool 5 is arranged in the turntable 41 assembling hole; the workpiece mounting tool 5 is in contact with the tool rotating assembly 47, and the tool rotating assembly 47 drives the workpiece mounting tool 5 to rotate; in the utility model, the workpiece is arranged in the workpiece mounting tool 5 on the turntable 41, the turntable 41 is connected with the rotating motor 46, and the rotating motor 46 drives the turntable 41 to rotate, so that the utility model can quickly carry out the gluing work, thereby improving the gluing efficiency of the utility model; simultaneously, when the glue dripping mechanism at the spreading machine carries out the rubber coating to the work piece, work piece installation frock 5 on carousel 41 rotates under frock rotating assembly 47's drive, makes the utility model discloses a rubber coating is more even, and the rubber coating effect is better.
The workpiece mounting tool 5 comprises a spacer bush 51 and a tool seat 52; a spacer space 511 is arranged in the spacer 51, the tool seat 52 is arranged in the spacer space 511, and a bearing is arranged between the tool seat 52 and the spacer 51; a tool space 521 is arranged in the tool seat 52, and a workpiece needing gluing is arranged in the tool space 521 and is fixed; the spacer space 511 and the tool space 521 are both provided with openings, and the openings of the spacer space 511 and the tool space 521 are arranged at the same end; the inner surface of the spacer 51 is provided with a spacer 51 bearing assembling groove, the outer surface of the tool seat 52 is provided with a tool seat 52 bearing assembling groove, and the tool seat 52 bearing assembling groove and the spacer 51 bearing assembling groove correspond to each other; the inner surface of the bearing is contacted with the outer surface of the tool seat 52, and the outer surface of the bearing is contacted with the inner surface of the spacer 51; the tool seat 52 is arranged in the spacer space 511, and the workpiece is arranged in the tool seat 52; the bearing between the tool seat 52 and the spacer 51 enables the tool seat 52 to rotate, and further drives the workpiece to rotate, so that the gluing of the utility model is more uniform; the arrangement of the bearing assembling grooves of the spacer bush 51 and the tool seat 52 ensures that the connection of the bearings is firmer and more stable; the tool seat 52 is arranged in the spacer space 511, and the workpiece is arranged in the tool seat 52; the bearing between the tool seat 52 and the spacer 51 enables the tool seat 52 to rotate, and further drives the workpiece to rotate, so that the gluing of the utility model is more uniform; the bearing assembling grooves of the spacer 51 and the tool holder 52 are arranged so that the connection of the bearings is firmer and more stable.
In this embodiment, the bearings include a first bearing 531 and a second bearing 532; a first spacer bearing assembling groove 513 and a second spacer bearing assembling groove 514 are formed in two ends of the inner surface of the spacer 51, and a first tool holder bearing assembling groove 524 and a second tool holder bearing assembling groove 252 are formed in two ends of the outer surface of the tool holder 52; the first spacer bearing assembling groove 513 and the first tool holder bearing assembling groove 524 are provided with an intersecting region, the first bearing 531 is arranged in the intersecting region, the upper surface of the first bearing 531 is in contact with the side wall of the first tool holder bearing assembling groove 524, and the lower surface of the first bearing 531 is in contact with the side wall of the first spacer bearing assembling groove 513; the second spacer bearing assembly groove 514 and the second tool holder bearing assembly groove 252 are provided with an intersection region, the second bearing 532 is arranged in the intersection region, the upper surface of the second bearing 532 is in contact with the side wall of the second tool holder bearing assembly groove 252, and the lower surface of the second bearing 532 is in contact with the side wall of the second spacer bearing assembly groove 514; a bearing limiting groove 526 is further formed in the second tool seat bearing assembling groove 252, a limiting ring 527 is arranged in the bearing limiting groove 526, and the limiting ring 527 is in contact with the lower surface of the second bearing 532; the provision of the stop collar 527 enables the second bearing 532 to be more securely mounted.
The tool seat 52 is in contact with the tool rotating assembly 47, and one end of the tool seat 52 is provided with a connecting groove 523; the joining groove 523 is in contact with a joining block 471 of the tool rotating component 47 and is driven by the joining block 471 to rotate; the arrangement of the joining groove 523 and the joining block 471 facilitates the assembly and transmission of the tool holder 52 and the tool rotating component 47.
The workpiece mounting tool 5 further comprises a tool seat 52 rotating and positioning assembly, which comprises a steel ball 491, a spring sleeve 492 and a positioning pin 493; the spring sleeve 492 is fixed on the spacer 51, the positioning pin 493 is arranged at one end of the spring sleeve 492 and is in contact with one end of the spring in the spring sleeve 492, and the steel ball 491 is arranged at one end of the spring sleeve 492, which is far away from the positioning pin 493, and is in contact with the other end of the spring in the spring sleeve 492; the outer surface of the tool seat 52 is provided with a positioning hole corresponding to the steel ball 491, and the steel ball 491 enters the positioning hole under the action of the spring sleeve 492; when the engaging block 471 enters the engaging groove 523 and the tool rotating assembly 47 drives the tool holder 52 to rotate, the acting force exerted by the spring in the spring sleeve 492 on the steel ball 491 is smaller than the acting force transmitted by the auxiliary synchronizing wheel 479, and the steel ball 491 rolls along the outer surface of the tool holder 52; when the joint block 471 leaves the joint groove 523, the steel ball 491 enters the positioning hole through the acting force of the spring in the spring sleeve 492 so as to limit the position of the tool seat 52.
The tool rotating assembly 47 comprises a tool rotating installation plate 472, a tool rotating bearing seat, a tool rotating motor 474, a synchronous belt 475 and a synchronous wheel; the synchronizing wheels comprise a main synchronizing wheel 478 and an auxiliary synchronizing wheel 479, wherein the main synchronizing wheel 478 is arranged on an output shaft of a tool rotating motor 474, the auxiliary synchronizing wheel 479 is arranged on a rotating shaft of a tool rotating bearing seat, and a synchronous belt 475 is meshed with the main synchronizing wheel 478 and the auxiliary synchronizing wheel 479 and drives the same; the tool rotating bearing seat, the synchronous belt 475 and the synchronous wheel are arranged on the upper surface of the tool rotating installation plate 472, and the connecting block 471 is arranged on a rotating shaft of the tool rotating bearing seat; in the present embodiment, the number of the tool rotary bearing seats corresponds to the number of the glue outlet valves, the tool rotary bearing seats include a first rotary bearing seat 480 and a second rotary bearing seat 481, the secondary synchronizing wheel 479 includes a first secondary synchronizing wheel 482 and a second secondary synchronizing wheel 483, the first secondary synchronizing wheel 482 is disposed on the rotary shaft of the first rotary bearing seat 480, the second secondary synchronizing wheel 483 is disposed on the rotary shaft of the second rotary bearing seat 481, and the timing belt 475 is engaged with the main synchronizing wheel 478, the first secondary synchronizing wheel 482 and the second secondary synchronizing wheel 483; a sensor is also provided on the tool rotation mounting plate 472 for detecting the rotation of the primary synchronizing wheel 478 and the secondary synchronizing wheel 479.
The tool rotating assembly 47 further comprises a connection adjusting assembly, so that the connection block 471 is in contact with or separated from the connection groove 523; the engagement adjusting assembly comprises an engagement cylinder 484, an engagement plate 485, an engagement bearing 486 and an engagement guide rod 487; the engagement air cylinder 484 is arranged on the lower surface of the engagement plate 485, and an air cylinder arm of the engagement air cylinder 484 penetrates through the engagement plate 485 to be in contact with the lower surface of the tool rotating installation plate 472; the engagement bearing 486 is arranged on the tool rotating installation plate 472, the engagement bearing 486 penetrates through the engagement guide rod 487, and one end of the engagement guide rod 487 is in contact with the upper surface of the engagement plate 485; in this embodiment, the connection plate 485 is fixed on the platform 21, and the cylinder arm of the connection cylinder 484 extends to drive the tool rotation mounting plate 472 to approach the turntable 41, so that the connection block 471 enters the connection groove 523, and the tool rotation component 47 drives the tool seat 52 to rotate.
In this embodiment, two ends of the spacer space 511 are both provided with openings, and one end of the spacer space 511 has an opening corresponding to the opening of the tooling space 521; the tool seat 52 is provided with one end of a joining groove 523, and is in contact with a joining block 471 through an opening at the other end of the spacer space 511; the spacer space 511 is provided with an opening for facilitating assembly of the tool mount 52, and the tool space 521 is provided with an opening for facilitating entry of a workpiece into the tool space 521.
In this embodiment, the turntable 41 is circular, the assembly holes of the turntable 41 are circularly distributed on the turntable 41, and the output end of the rotating motor 46 is connected with the central point of the lower surface of the turntable 41, so that all the workpiece mounting tools 5 are located at the same position when reaching each mechanism for machining or detecting, thereby avoiding errors during machining; the rotary motor 46 is arranged on the table panel 21; the tool rotating assembly 47 is also arranged on the table panel 21 and is positioned below the assembling hole of the turntable 41; the tooling rotating assembly 47 is convenient to contact with the tooling seat 52 and drives the tooling seat 52 to rotate, so that the gluing area is more uniform.
Example 2:
as shown in fig. 1-2, a gluing and curing device comprises a protective cover 1, a frame part 2, a workpiece carrying mechanism 3 and a workpiece processing part 4; the workpiece conveying mechanism 3 and the workpiece processing part 4 are arranged on the table board 21 of the rack part 2 and are surrounded and protected by the protective cover 1, and the safety use performance of the gluing and curing equipment is further improved.
As shown in fig. 3, 4, 10, 11, 12, and 13, the workpiece processing section 4 includes a turntable 41, a dispensing mechanism 42, a detection mechanism 44, and a dispensing curing mechanism 45; a turntable assembly hole 411 is further formed in the turntable 41, and a workpiece mounting tool 5 is arranged in the turntable assembly hole 411; the turntable 41 is arranged among the glue dripping mechanism 42, the detection mechanism 44 and the glue dripping curing mechanism 45, the rotary motor 46 is arranged on the table panel 21, the rotary motor 46 is connected with the turntable 41, the turntable 41 is driven by the rotary motor 46 to rotate, so that the workpiece mounting tool 5 sequentially passes through the glue dripping mechanism 42, the detection mechanism 44 and the glue dripping curing mechanism 45, and the processing efficiency of the glue coating curing equipment is improved; when the glue dripping processing is carried out on the inner surface of the workpiece by the glue coating and curing equipment, the glue dripping effect on the inner surface of the workpiece can be observed through the detection mechanism 44, so that the glue dripping quality of the glue coating and curing equipment is better; the arrangement of the glue dripping curing mechanism 45 enables the area of the gluing curing equipment for finishing gluing to be cured quickly, and poor gluing quality of the workpiece caused by downward flow of gluing is avoided; in this embodiment, the turntable 41 is circular, and the turntable assembly holes 411 are distributed on the turntable 41 in a circular manner; the output end of the rotating motor 46 is connected with the central point of the lower surface of the turntable 41, and the rotating motor 46 is arranged on the table panel 21; the turntable 41 is circular and the turntable assembly holes 411 are circularly distributed, so that all the workpiece mounting tools 5 are located at the same position when arriving at each mechanism for processing or detecting, and errors are avoided during processing.
In some preferred manners, sensors are further provided on the upper surface of the turntable 41, the number of the sensors is the same as the number of the workpiece mounting tools 5, and the positions of the sensors and the workpiece mounting tools correspond to each other.
The workpiece conveying mechanism 3 comprises a conveying track 31, a conveying tray 32, a feeding assembly 33 and a discharging assembly 34; the conveying rail 31 is arranged on the table panel 21, the conveying tray 32 is arranged in the conveying rail 31 and moves along the direction of the conveying rail 31, and the workpiece to be processed is arranged on the conveying tray 32; the feeding assembly 33 and the discharging assembly 34 both comprise a vertical cylinder, a rotary cylinder and a gripper cylinder, under the cooperation of the three cylinders, a workpiece to be machined is sent into the workpiece mounting tool 5 from the carrying tray 32 by the feeding assembly 33, and the workpiece which is machined is taken out of the workpiece mounting tool 5 and placed into the carrying tray 32 by the discharging assembly 34; in the gluing and curing device, when the turntable 41 rotates, the positions of the turntable assembling hole 411 and the workpiece mounting tool 5 can change positions in real time according to the rotation of the turntable 41, and the vertical cylinder and the rotary cylinder arranged in the middle of the feeding assembly 33 and the discharging assembly 34 are convenient for the feeding assembly 33 and the discharging assembly 34 to carry workpieces without dead angles.
As shown in fig. 5 to 8, the workpiece conveying mechanism 3 includes a workpiece adjusting assembly 35, and the workpiece adjusting assembly 35 is disposed on the table panel 21 and corresponds to the feeding assembly 33 and the discharging assembly 34, respectively; the workpiece adjusting assembly 35 comprises an adjusting cylinder 351, a rotating seat 352, an adjusting paw cylinder 353 and an adjusting mounting plate 354; the adjusting cylinder 351, the rotating seat 352 and the adjusting paw cylinder 353 are all arranged on the adjusting mounting plate 354; a rack 355 is arranged on a cylinder arm of the adjusting cylinder 351, a rack adjusting hole 356 is arranged on the adjusting mounting plate 354, the rack 355 is arranged in the rack adjusting hole 356, and the rack 355 moves along the rack adjusting hole 356; the rotary seat 352 is connected with the adjusting paw cylinder 353, a rotary shaft 357 is arranged on the rotary seat 352, and a rotary bearing 358 is arranged on the rotary shaft 357; bearing teeth 359 are arranged on the rotating bearing 358, and the rotating bearing 358 is meshed with the tooth surface of the rack 355 through the bearing teeth 359; the cylinder arm of the adjusting cylinder 351 extends and contracts to drive the rack 355 to move, and the rack 355 moves to drive the rotating seat 352 and the adjusting paw cylinder 353 to rotate; a bearing mounting hole 360 is formed in the adjusting mounting plate 354, and the rotating bearing 358 is arranged in the bearing mounting hole 360; bearing mounting holes 360 communicate with rack adjustment holes 356 to engage rotary bearings 358 with racks 355; the adjusting paw cylinder 353 is positioned above the carrying track 31, and the adjusting paw cylinder 353 rotates under the action of the meshing of the rotary bearing 358 and the rack 355; in this embodiment, the adjusting mounting plate 354 is parallel to the conveying rail 31, the adjusting gripper cylinder 353 is disposed on an end surface of the adjusting mounting plate 354 facing the conveying rail 31, and the adjusting gripper cylinder 353 can adjust the workpiece on the conveying tray 32, so that the loading assembly 33 can conveniently grab the workpiece to be processed, and the workpiece which is sent to the conveying tray 32 by the unloading assembly 34 and is completely processed can be conveniently fixed on the conveying tray 32; the adjusting mounting plate 354 is provided with an adjusting mounting block 363, and the adjusting cylinder 351 is connected with the adjusting mounting plate 354 through the adjusting mounting block 363; the adjusting cylinder 351 and the adjusting mounting block 363 are arranged at one end of the adjusting mounting plate 354; the length of the rack adjusting hole 356 corresponds to the length of the adjusting mounting plate 354, openings are formed in both ends of the rack adjusting hole 356 for the rack 355 to pass through, and the openings of the rack adjusting hole 356 are respectively formed in both ends of the adjusting mounting plate 354; the workpiece adjusting assembly 35 further comprises an adjusting limit block 361 and a buffer 362, wherein the adjusting limit block 361 and the buffer 362 are arranged at one end of the adjusting mounting plate 354 far away from the adjusting cylinder 351 and the adjusting mounting block 363; the buffer 362 is connected with the adjusting mounting plate 354, one end of the adjusting limiting block 361 is connected with the buffer 362, and the other end of the adjusting limiting block 361 is connected with the rack 355; the bearing mounting holes 360 are arranged above the rack adjusting holes 356, the tooth surfaces of the rack 355 face the bearing mounting holes 360, and the horizontal heights of the bearing mounting holes 360 are consistent, so that the rotary bearings 358 are meshed with the rack 355 more precisely; in general, the gluing device comprises two adjusting claw cylinders 353, two bearing mounting holes 360 and two rotating seats 352, wherein the two bearing mounting holes 360 are arranged above a rack adjusting hole 356, so that the gluing and curing device can adjust two workpieces at the same time; under the requirement of products, the number of the adjusting paw air cylinders 353 can be increased or reduced, and it is noted that the number of the bearing installation holes 360 and the number of the rotating seats 352 correspond to the number of the adjusting paw air cylinders 353.
In some preferred manners, tooth surfaces can be arranged on the upper surface and the lower surface of the rack 355, so that the bearing mounting holes 360 can be respectively arranged above and below the rack adjusting holes 356, and the adjusting claw cylinder 353 can be conveniently added in the gluing curing device to improve the processing efficiency of the gluing curing device.
As shown in fig. 9, the workpiece transfer mechanism 3 includes a tray lift assembly 37 provided between the transfer rails 31; the tray lifting assembly 37 comprises a tray lifting cylinder 371, a tray lifting guide rod 372, a tray lifting bearing 373, a tray connecting block 374 and a tray fixing block 375; the tray lifting cylinder 371 is arranged on the lower surface of the table panel 21, a cylinder arm of the tray lifting cylinder 371 penetrates through the table panel 21, a tray fixing block 375 is arranged on the cylinder arm of the tray lifting cylinder 371, and the tray fixing block 375 is connected with the lower surface of the tray connecting block 374; the tray lifting bearing 373 is fixed on the table board 21, the tray lifting guide rod 372 penetrates through the tray lifting bearing 373, and one end of the tray lifting bearing 373 is connected with the lower surface of the tray connecting block 374; the upper surface of the tray connecting block 374 contacts the lower surface of the carrying tray 32 and lifts the carrying tray 32; when the conveying tray 32 reaches the position corresponding to the tray lifting assembly 37, the conveying tray 32 is lifted under the action of the tray lifting cylinder 371, so that the loading assembly 33 can conveniently send the workpiece to be machined into the workpiece mounting tool 5 from the conveying tray 32, and the unloading assembly 34 can conveniently take out the machined workpiece from the workpiece mounting tool 5 and place the workpiece into the conveying tray 32.
The workpiece carrying mechanism 3 further comprises a tray limiting block 38, and the tray limiting block 38 is arranged on the carrying rail 31 and is positioned at a position corresponding to the tray lifting assembly 37; the tray limiting block 38 is L-shaped, and includes a first tray limiting plate 381 and a second tray limiting plate 382, the first tray limiting plate 381 and the second tray limiting plate 382 are vertically connected to each other, wherein the first tray limiting plate 381 is connected to the carrying rail 31, and the second tray limiting plate 382 is disposed above the tray lifting assembly 37; when the carrying tray 32 reaches the corresponding height under the action of the tray lifting cylinder 371, the height of the tray is limited by the tray limiting block 38, so that the loading component 33 can conveniently take the workpieces to be processed on the carrying tray 32, and the unloading component 34 can conveniently place the workpieces which are processed on the carrying tray 32; a workpiece to be processed is set on the upper surface of the conveyance tray 32; a workpiece fixing block 39 is provided on the upper surface of the conveying tray 32 to facilitate fixing of the workpiece.
As shown in fig. 16-17, the feeding assembly 33 includes a feeding column 331, a feeding mounting plate 332, a feeding electric cylinder module 333, a feeding sliding plate 334, a feeding vertical cylinder 335, a feeding rotary cylinder 336, a feeding air claw mounting plate 337, and a feeding hand claw cylinder 338; one end face of the feeding mounting plate 332 is connected with one end of the feeding upright column 331, and the other end of the feeding upright column 331 is connected with the upper surface of the deck plate 21; the feeding electric cylinder module 333 is arranged on the other end face of the feeding mounting plate 332, and the feeding sliding plate 334 is connected with the sliding block of the feeding electric cylinder module 333; the feeding vertical cylinder 335 is arranged on the feeding sliding plate 334, and the feeding rotary cylinder 336 is arranged on the cylinder arm of the feeding vertical cylinder 335; the feeding rotary cylinder 336 comprises a rotary cylinder seat 40, the upper surface of a feeding air claw mounting plate 337 is connected with the rotary cylinder seat 40, and the lower surface of the feeding air claw mounting plate 337 is connected with a feeding hand claw cylinder 338; the blanking assembly 34 comprises a blanking upright column 341, a blanking mounting plate 342, a blanking electric cylinder module 343, a blanking sliding plate 344, a blanking vertical cylinder 345, a blanking rotary cylinder 346, a blanking pneumatic claw mounting plate 347 and a blanking gripper cylinder 348; one end surface of the blanking mounting plate 342 is connected with one end of the blanking upright column 341, and the other end of the blanking upright column 341 is connected with the upper surface of the deck plate 21; the blanking electric cylinder module 343 is arranged on the other end face of the blanking mounting plate 342, and the blanking sliding plate 344 is connected with the sliding block of the blanking electric cylinder module 343; the blanking vertical cylinder 345 is arranged on the blanking sliding plate 344, and the blanking rotary cylinder 346 is arranged on the cylinder arm of the blanking vertical cylinder 345; the blanking rotary cylinder 346 comprises a rotary cylinder seat 40, the upper surface of the blanking gas claw mounting plate 347 is connected with the rotary cylinder seat 40, and the lower surface of the blanking gas claw mounting plate 347 is connected with a blanking paw cylinder 348; the feeding vertical cylinder 335 is matched with the feeding rotary cylinder 336, and the blanking vertical cylinder 345 is matched with the blanking rotary cylinder 346, so that when the turntable 41 rotates, the feeding assembly 33 and the blanking assembly 34 can accurately convey workpieces; in this embodiment, the feeding assembly 33 includes two feeding gripper cylinders 338, the discharging assembly 34 includes two discharging gripper cylinders 348, and the workpiece adjusting assemblies 35 corresponding to the feeding assembly 33 and the discharging assembly 34 each include two adjusting gripper cylinders 353.
As shown in fig. 18-20, the glue dripping mechanism 42 includes a glue dripping device for controlling whether to discharge glue and a glue dripping control component for controlling the position of glue dripping; the glue dripping equipment comprises a glue dispenser 421 and a glue dripping support 422, the glue dispenser 421 is arranged on the glue dripping support 422, and a glue outlet valve 420 of the glue dispenser 421 is arranged on the glue dripping control assembly; the glue dripping control assembly is arranged above the rotary disc 41 and comprises a glue dripping upright post 423, a glue dripping assembly plate 424, a glue dripping installation plate 425, a glue dripping air cylinder 426, a glue dripping slide rail 427, a glue dripping slide plate 428 and a glue outlet valve bracket 429; one end of the glue dripping upright column 423 is connected with the upper surface of the table panel 21, the glue dripping assembly plate 424 is arranged on the glue dripping upright column 423, and the glue dripping mounting plate 425 is connected with the glue dripping assembly plate 424; the glue dripping mounting plate 425 comprises a first mounting plate 430 and a second mounting plate 431, the lower surface of the first mounting plate 430 is connected with the upper surface of the glue dripping assembling plate 424, one end surface of the second mounting plate 431 is connected with the side edge of the second mounting plate 431, and a reinforcing rib 432 is further arranged at an included angle between the first mounting plate 430 and the second mounting plate 431 and used for reinforcing the structural strength of the glue dripping mounting plate 425; the reinforcing ribs 432 are connected with the first mounting plate 430 and the second mounting plate 431; the glue dripping slide rail 427 is arranged on the other end surface of the second mounting plate 431, a glue dripping slide block 434 is arranged on the glue dripping slide rail 427, the glue dripping slide block 434 moves along the glue dripping slide rail 427, and the glue dripping slide block 434 is connected with the lower surface of the glue dripping slide plate 428; a glue outlet valve bracket 429 is arranged on the upper surface of the glue dripping sliding plate 428, and the glue outlet valve 420 is arranged on the glue outlet valve bracket 429; the glue dripping cylinder 426 is arranged on the second mounting plate 431 and is positioned on the surface where the glue dripping slide rail 427 is positioned, and a cylinder arm of the glue dripping cylinder 426 is connected with the glue dripping slide plate 428; the moving direction of the cylinder arm of the glue dripping cylinder 426 corresponds to the moving direction of the glue dripping slide block 434; the glue outlet valve 420 is driven by the glue dripping sliding plate 428 to move, so that the glue dripping mechanism 42 can conveniently glue the workpiece; when the turntable 41 rotates, the cylinder arm of the glue dripping cylinder 426 is folded, and the glue dripping sliding plate 428 and the glue outlet valve support 429 and the glue outlet valve 420 on the glue dripping sliding plate 428 are driven to be away from the workpiece mounting tool 5; when the turntable 41 reaches the position corresponding to the glue dripping mechanism 42, the cylinder arm of the glue dripping cylinder 426 extends to drive the glue dripping sliding plate 428 and the glue outlet valve bracket 429 and the glue outlet valve 420 on the glue dripping sliding plate 428 to be close to the workpiece mounting tool 5, and the glue outlet valve 420 enters the inside of the workpiece to glue the inner surface of the workpiece; in the embodiment, two glue valves 420 are included, and two glue valve brackets 429 are arranged on the upper surface of the glue dripping sliding plate 428, and the number of the glue valves 420 can be increased or decreased according to the requirement, and when the number of the glue valves 420 is changed, the number of the glue valve brackets 429 needs to be changed synchronously.
In some preferred modes, the glue dripping assembling plate 424 can move along the glue dripping upright 423, and the glue dripping control assembly further comprises a glue dripping bearing 435 and a glue dripping fixing ring 436; the glue dripping bearing 435 is penetrated by the glue dripping upright 423 and moves along the glue dripping upright 423, the glue dripping assembly plate 424 is connected with the glue dripping bearing 435, and the glue dripping assembly plate 424 moves along with the glue dripping bearing 435; the glue dripping fixing ring 436 is sleeved on the glue dripping upright column 423, the glue dripping fixing ring 436 moves along the glue dripping upright column 423, and the glue dripping fixing ring 436 is arranged below the glue dripping bearing 435; the glue dripping fixing ring 436 is provided with a fixing ring opening, and the fixing position of the glue dripping fixing ring 436 is adjusted by adjusting the size of the opening of the fixing ring opening; when the glue dripping fixing ring 436 is fixed, the glue dripping bearing 435 is contacted with the glue dripping fixing ring 436, and the glue dripping bearing 435 is limited by the glue dripping fixing ring 436; the glue dripping bearing 435 allows the height and position of the glue dripping assembly plate 424 and the components on the glue dripping assembly plate 424 to be adjusted, so that the glue dripping mechanism 42 can process more types of workpieces.
As shown in fig. 14-15, the glue dripping mechanism 42 further includes a tooling rotating assembly 47, the tooling rotating assembly 47 is disposed below the turntable 41 and corresponds to the position of the glue dripping control assembly; the workpiece mounting tool 5 is in contact with the tool rotating component 47, and the tool rotating component 47 drives the workpiece mounting tool 5 to rotate; the workpiece mounting tool 5 comprises a spacer bush 51 and a tool seat 52; a spacer space 511 is arranged in the spacer 51, the tool seat 52 is arranged in the spacer space 511, a bearing is further arranged between the tool seat 52 and the spacer 51, a tool space 521 is arranged in the tool seat 52, and a workpiece needing gluing is arranged in the tool space 521 and is fixed; the inner surface of the spacer bush 51 is provided with a spacer bush 51 bearing assembling groove, the outer surface of the tool seat 52 is provided with a tool seat 52 bearing assembling groove, and the tool seat 52 bearing assembling groove and the spacer bush 51 bearing assembling groove correspond to each other; the inner surface of the bearing is contacted with the outer surface of the tool seat 52, the outer surface of the bearing is contacted with the inner surface of the spacer 51, and the tool seat 52 rotates in the spacer space 511 under the action of the bearing; the tool seat 52 is in contact with the tool rotating component 47, and a connecting groove 523 is arranged at one end of the tool seat in contact with the tool rotating component 47; the joining groove 523 is in contact with a joining block 471 of the tool rotating component 47 and is driven by the joining block 471 to rotate; the tool base 52 is driven by the tool rotating assembly 47 to rotate, so that the glue dripping mechanism 42 can glue more uniformly, and the glue dripping mechanism 42 has a better glue coating effect.
In this embodiment, the bearings include a first bearing 531 and a second bearing 532; a first spacer bearing assembling groove 513 and a second spacer bearing assembling groove 514 are formed in two ends of the inner surface of the spacer 51, and a first tool holder bearing assembling groove 524 and a second tool holder bearing assembling groove 525 are formed in two ends of the outer surface of the tool holder 52; the first spacer bearing assembling groove 513 and the first tool holder bearing assembling groove 524 are provided with an intersecting region, the first bearing 531 is arranged in the intersecting region, the upper surface of the first bearing 531 is in contact with the side wall of the first tool holder bearing assembling groove 524, and the lower surface of the first bearing 531 is in contact with the side wall of the first spacer bearing assembling groove 513; the second spacer bearing assembly groove 514 and the second tool holder bearing assembly groove 525 are provided with an intersection region, the second bearing 532 is arranged in the intersection region, the upper surface of the second bearing 532 is contacted with the side wall of the second tool holder bearing assembly groove 525, and the lower surface of the second bearing 532 is contacted with the side wall of the second spacer bearing assembly groove 514, so that the first bearing 531 is more firmly installed; a bearing limiting groove 526 is further formed in the second tool seat bearing assembling groove 525, a limiting ring 527 is arranged in the bearing limiting groove 526, and the limiting ring 527 is in contact with the lower surface of the second bearing 532; making the second bearing 532 more securely mounted.
The tool rotating assembly 47 further comprises a tool rotating installation plate 472, a tool rotating bearing 358 seat, a tool rotating motor 474, a synchronous belt 475 and a synchronous wheel; the synchronizing wheels include a main synchronizing wheel 478 and a sub-synchronizing wheel 479, wherein the main synchronizing wheel 478 is disposed on an output shaft of a tool rotating motor 474, the sub-synchronizing wheel 479 is disposed on a rotating shaft 357 of a tool rotating bearing 358 seat, and a synchronous belt 475 is engaged with and transmits the main synchronizing wheel 478 and the sub-synchronizing wheel 479; the tool rotation bearing 358 seat, the synchronous belt 475 and the synchronous wheel are arranged on the upper surface of the tool rotation mounting plate 472, and the engaging block 471 is arranged on the rotating shaft 357 of the tool rotation bearing 358 seat; in the present embodiment, the number of the tool rotary bearing 358 seats corresponds to the number of the glue dispensing valves 420, the tool rotary bearing 358 seats includes a first rotary bearing seat 480 and a second rotary bearing seat 481, the sub synchronizing wheel 479 includes a first sub synchronizing wheel 482 and a second sub synchronizing wheel 483, the first sub synchronizing wheel 482 is disposed on the rotating shaft 357 of the first rotary bearing seat 480, the second sub synchronizing wheel 483 is disposed on the rotating shaft 357 of the second rotary bearing seat 481, and the timing belt 475 is engaged with the main synchronizing wheel 478, the first sub synchronizing wheel 482 and the second sub synchronizing wheel 483; a sensor is also provided on the tool rotation mounting plate 472 for detecting the rotation of the primary synchronizing wheel 478 and the secondary synchronizing wheel 479.
The tool rotating assembly 47 further comprises a connection adjusting assembly, so that the connection block 471 is in contact with or separated from the connection groove 523; the engagement adjusting assembly comprises an engagement cylinder 484, an engagement plate 485, an engagement bearing 486 and an engagement guide rod 487; the engagement air cylinder 484 is arranged on the lower surface of the engagement plate 485, and an air cylinder arm of the engagement air cylinder 484 penetrates through the engagement plate 485 to be in contact with the lower surface of the tool rotating installation plate 472; the engagement bearing 486 is arranged on the tool rotating installation plate 472, the engagement bearing 486 penetrates through the engagement guide rod 487, and one end of the engagement guide rod 487 is in contact with the upper surface of the engagement plate 485; in this embodiment, the connection plate 485 is fixed on the table panel 21, and the cylinder arm of the connection cylinder 484 extends to drive the tool rotation mounting plate 472 to approach the turntable 41, so that the connection block 471 enters the connection groove 523, and the tool rotation assembly 47 drives the tool seat 52 to rotate.
In some preferred manners, the workpiece mounting tool 5 further comprises a tool holder rotation positioning assembly 49, which comprises a steel ball 491, a spring sleeve 492 and a positioning pin 493; the spring sleeve 492 is fixed on the spacer 51, the positioning pin 493 is arranged at one end of the spring sleeve 492 and is in contact with one end of the spring in the spring sleeve 492, and the steel ball 491 is arranged at one end of the spring sleeve 492, which is far away from the positioning pin 493, and is in contact with the other end of the spring in the spring sleeve 492; the outer surface of the tool seat 52 is provided with a positioning hole corresponding to the steel ball 491, and the steel ball 491 enters the positioning hole under the action of the spring sleeve 492; when the engaging block 471 enters the engaging groove 523 and the tool rotating assembly 47 drives the tool holder 52 to rotate, the acting force exerted by the spring in the spring sleeve 492 on the steel ball 491 is smaller than the acting force transmitted by the auxiliary synchronizing wheel 479, and the steel ball 491 rolls along the outer surface of the tool holder 52; when the joint block 471 leaves the joint groove 523, the steel ball 491 enters the positioning hole through the acting force of the spring in the spring sleeve 492 so as to limit the position of the tool seat 52.
As shown in fig. 21, the inspection mechanism 44 includes an inspection bracket 441, an inspection cylinder 442, a holder 443, an inspection connecting rod 444, an inspection camera 445, a camera mounting plate 446, an inspection light source 447, and a light source mounting plate 448, and the inspection camera 445 and the inspection light source 447 are disposed above the workpiece mounting tool 5; the detection bracket 441 is arranged on the upper surface of the table board 21, and the detection cylinder 442 is fixed on the detection bracket 441; a detection slider 439 is provided on the detection cylinder 442, and the movement of the detection slider 439 is controlled by the detection cylinder 442; the clamp seat 443 includes a first clamp seat 449 and a second clamp seat 450, the first clamp seat 449 and the second clamp seat 450 are respectively disposed at two ends of the detection connecting rod 444, wherein the first clamp seat 449 is connected with the detection sliding block 439; the second holder 450 is connected with the camera mounting plate 446, and the detection camera 445 is arranged on the camera mounting plate 446; the light source mounting plate 448 is connected with the second holder 450, and the detection light source 447 is connected with the light source mounting plate 448; the detection light source 447 corresponds to the detection camera 445, and the detection camera 445 is disposed above the detection light source 447; the light source mounting plate 448 and the detection light source 447 are both provided with detection through holes 440, and the detection through holes 440 and the detection camera 445 are in the same straight line; the arrangement of the detection mechanism 44 enables an operator to check the glue dripping effect of the glue dripping mechanism 42 in advance, so that the gluing efficiency and the gluing quality of the gluing curing equipment are improved; and the detection light source 447 is arranged to make the detection effect of the detection camera 445 clearer.
As shown in fig. 22, the drip curing mechanism 45 includes a curing upright 451, a curing mounting plate 452, a curing lamp 453, a curing baffle 454, and a baffle mounting bracket 455; one end of the curing upright 451 is connected with the upper surface of the table panel 21, and the curing mounting plate 452 is arranged on the curing upright 451; the two ends of the baffle mounting bracket 455 are respectively connected with a curing lamp 453 and a curing mounting plate 452, the curing lamp 453 is surrounded by the curing baffle 454, and the curing lamp 453 is arranged above the turntable 41 and corresponds to the workpiece mounting tool 5; the curing baffle 454 is used for protecting the curing lamp 453, and the illumination range of the curing lamp 453 is limited, so that the curing of the gluing area in other workpieces is prevented from being influenced; a baffle opening 456 is provided in the curing baffle 454 for the workpiece mounting fixture 5 to enter the curing baffle 454 and exit the curing baffle 454.
The gluing and curing equipment further comprises detection display equipment 6, wherein the detection display equipment 6 comprises a display screen 61, a control host 62, a mouse 63 and a keyboard 64, and the display, the mouse 63 and the keyboard 64 are all connected with the control host 62; the detection camera 445 is connected with the control host 62, and the content shot or recorded by the detection camera 445 is displayed by the display screen 61; the operator can adjust the detection camera 445 through the control host 62 by using the mouse 63 and the keyboard 64, so that the detection effect of the detection camera 445 is more accurate.
The rack part 2 comprises a rack supporting column 22 and a rack cover plate 23, and a rack space 24 is formed by the rack supporting column 22 and the rack cover plate 23 in an enclosing manner; the electrical equipment of the gluing and curing equipment is arranged in the rack space 24; a power switch 25 is also arranged on the frame cover plate 23; the table panel 21 is located on the upper surface of the frame portion 2; four corners of the bottom surface of the stand supporting column 22 are also provided with feet 26, so that the whole gluing and curing equipment is placed more firmly and stably;
the protective cover 1 part comprises a protective cover support column 11 and a protective cover plate 12, a protective space 13 is formed by the protective cover support column 11 and the protective cover plate 12 in an enclosing mode, and the workpiece carrying mechanism 3 and the workpiece processing part 4 are arranged in the protective space 13; the protective cover 1 is penetrated by the conveying track 31, and a conveying track feeding inlet 14 and a conveying track feeding outlet 15 are arranged on the protective cover 1; the protective cover 1 also comprises a control button box 17, and the gluing and curing equipment is controlled by the control button box 17; protective cover moving doors 16 are arranged on the protective cover plates 12 on the side surfaces of the protective cover 1, so that an operator can operate and use the gluing and curing equipment conveniently.
In some preferred manners, the feeding assembly 33 comprises a first feeding drag chain 71, a first feeding bracket 72, a first feeding drag chain guard plate 73, a second feeding drag chain 74, a second feeding bracket 75 and a second feeding drag chain guard plate 76; the first feeding guard plate is arranged above the feeding mounting plate 332 and the feeding electric cylinder module 333, the first feeding drag chain 71 is arranged in the first feeding guard plate and moves along the first feeding guard plate, and the first feeding support 72 is respectively connected with the first feeding drag chain 71 and the feeding sliding plate 334; the second feeding drag chain guard plate 76 is connected with the feeding sliding plate 334, the second feeding drag chain 74 is arranged in the second feeding guard plate and moves along the second feeding guard plate, a feeding sliding table fixing seat 77 is arranged on a cylinder arm of the feeding vertical cylinder 335, and the second feeding support 75 is respectively connected with the feeding sliding table fixing seat 77 and the second feeding drag chain 74; the arrangement of the first feeding drag chain 71 and the second feeding drag chain 74 makes the movement of the feeding assembly 33 more stable; the blanking assembly 34 comprises a first blanking drag chain 81, a first blanking bracket 82, a first blanking drag chain guard plate 83, a second blanking drag chain 84, a second blanking bracket 85 and a second blanking drag chain guard plate 86; the first blanking guard plate is arranged above the blanking mounting plate 342 and the blanking electric cylinder module 343, the first blanking drag chain 81 is arranged in the first blanking guard plate and moves along the first blanking guard plate, and the first blanking bracket 82 is respectively connected with the first blanking drag chain 81 and the blanking sliding plate 344; the second blanking drag chain guard plate 86 is connected with the blanking sliding plate 344, the second blanking drag chain 84 is arranged in the second blanking guard plate and moves along the second blanking guard plate, a blanking sliding table fixing seat 87 is arranged below a cylinder arm of the blanking vertical cylinder 345, and the second blanking bracket 85 is respectively connected with the blanking sliding table fixing seat 87 and the second blanking drag chain 84; the arrangement of the first and second blanking drag chains 81, 84 makes the movement of the blanking assembly 34 more stable.
The application process of the gluing and curing equipment is as follows:
1. the unprocessed workpieces are arranged on the carrying tray 32 and enter the gluing and curing equipment from the carrying track feeding inlet 14; when the transport tray 32 reaches the position of the tray lift unit 37, the transport tray 32 is lifted by the tray lift unit 37.
2. The workpiece adjusting component 35 corresponding to the loading component 33 adjusts the unprocessed workpieces on the carrying tray 32; the feeding assembly 33 feeds the adjusted workpiece into the workpiece mounting tool 5 of the turntable 41.
3. The rotating motor 46 rotates, and the rotating disc 41 rotates along with the rotating motor; when the workpiece mounting tool 5 equipped with the workpiece reaches the glue dripping mechanism 42, the rotation of the rotating motor 46 is stopped; the glue valve enters the inside of the workpiece, and the inner surface of the workpiece is coated with glue; meanwhile, under the action of the engagement adjusting component, the engagement block 471 of the tool rotating component 47 enters the engagement groove 523 of the tool seat 52, so that the tool seat 52 rotates; so that the glue application of the tool seat 52 is more uniform.
4. After the tool seat 52 finishes gluing, the joining block 471 of the tool rotating assembly 47 leaves the joining groove 523 of the tool seat 52; the rotating motor 46 rotates, the rotating disc 41 rotates along with the rotating motor, and the workpiece subjected to gluing is driven to reach the detection mechanism 44; the rotation motor 46 stops rotating, the detection mechanism 44 works, and detection personnel can check the gluing effect through the detection display device 6.
5. After the tool seat 52 finishes detection, the rotating motor 46 rotates, and the turntable 41 rotates along with the rotation to drive the detected workpiece to reach the glue dripping and curing mechanism 45; the rotation of the rotary motor 46 is stopped and the detected workpiece is cured.
6. The blanking assembly 34 sends the solidified workpiece to a workpiece adjusting assembly 35 corresponding to the blanking assembly 34; the work is adjusted by the work adjusting assembly 35 and assembled to the carrying tray 32, and the gluing process is completed from the carrying rail feeding outlet 15.
It should be noted that other technical solutions of the present invention all belong to the prior art, and therefore are not described in detail.
The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the concept of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. A rotary processing mechanism of gluing curing equipment is characterized by comprising a turntable and a rotary motor; the rotating motor is connected with the turntable and drives the turntable to rotate;
a turntable assembly hole is also formed in the turntable, and a workpiece mounting tool is arranged in the turntable assembly hole;
still include frock rotating assembly, work piece installation frock and frock rotating assembly contact to frock rotating assembly drives work piece installation frock and rotates.
2. The rotary processing mechanism of the gluing curing device as claimed in claim 1, wherein the workpiece mounting tool comprises a spacer bush and a tool seat; a spacer space is arranged in the spacer, the tool seat is arranged in the spacer space, and a bearing is also arranged between the tool seat and the spacer; a tool space is arranged in the tool seat, and a workpiece needing gluing is arranged in the tool space and is fixed; the spacer bush space and the tool space are both provided with openings, and the openings of the spacer bush space and the tool space are arranged at the same end.
3. The rotary processing mechanism of the gluing curing device as claimed in claim 2, wherein the spacer bush has a spacer bush bearing assembly groove on the inner surface thereof, and a tool holder bearing assembly groove on the outer surface thereof, the tool holder bearing assembly groove and the spacer bush bearing assembly groove corresponding to each other; the internal surface of bearing and the external surface contact of frock seat, the external surface of bearing and the internal surface contact of spacer.
4. The rotary processing mechanism of a glue curing apparatus as claimed in claim 2, wherein the bearings comprise a first bearing and a second bearing; a first spacer bush bearing assembling groove and a second spacer bush bearing assembling groove are formed in two ends of the inner surface of the spacer bush, and a first tool holder bearing assembling groove and a second tool holder bearing assembling groove are formed in two ends of the outer surface of the tool holder;
the first spacer bush bearing assembling groove and the first tool holder bearing assembling groove are provided with an intersecting region, the first bearing is arranged in the intersecting region, the upper surface of the first bearing is contacted with the side wall of the first tool holder bearing assembling groove, and the lower surface of the first bearing is contacted with the side wall of the first spacer bush bearing assembling groove;
the second spacer bush bearing assembling groove and the second tool holder bearing assembling groove are provided with an intersecting region, the second bearing is arranged in the intersecting region, the upper surface of the second bearing is contacted with the side wall of the second tool holder bearing assembling groove, and the lower surface of the second bearing is contacted with the side wall of the second spacer bush bearing assembling groove; and a bearing limiting groove is further formed in the bearing assembling groove of the second tool seat, a limiting ring is arranged in the bearing limiting groove, and the limiting ring is in contact with the lower surface of the second bearing.
5. The rotary processing mechanism of the gluing curing device as claimed in claim 2, wherein the tooling seat is in contact with the tooling rotating assembly, and one end of the tooling seat is provided with an engaging groove; the connecting groove is in contact with a connecting block of the tool rotating assembly and rotates under the driving of the connecting block.
6. The rotary processing mechanism of the gluing curing device as claimed in claim 2, wherein the workpiece mounting tool further comprises a tool holder rotary positioning assembly, which comprises a steel ball, a spring sleeve and a positioning pin; the spring sleeve is fixed on the spacer sleeve, the positioning pin is arranged at one end of the spring sleeve and is contacted with one end of the spring in the spring sleeve, and the steel ball is arranged at one end of the spring sleeve, which is far away from the positioning pin, and is contacted with the other end of the spring in the spring sleeve; and a positioning hole corresponding to the steel ball is formed in the outer surface of the tool seat, and the steel ball enters the positioning hole under the action of the spring sleeve.
7. The rotary processing mechanism of the gluing curing equipment as claimed in claim 1 or 5, wherein the tooling rotary assembly comprises a tooling rotary mounting plate, a tooling rotary bearing seat, a tooling rotary motor, a synchronous belt and a synchronous wheel; the synchronous wheels comprise a main synchronous wheel and an auxiliary synchronous wheel, wherein the main synchronous wheel is arranged on an output shaft of the tool rotating motor, the auxiliary synchronous wheel is arranged on a rotating shaft of a tool rotating bearing seat, and the synchronous belt is meshed with the main synchronous wheel and the auxiliary synchronous wheel and drives the main synchronous wheel and the auxiliary synchronous wheel; the tool rotating bearing seat, the synchronous belt and the synchronous wheel are arranged on the upper surface of the tool rotating mounting plate, and the linking block is arranged on a rotating shaft of the tool rotating bearing seat.
8. The rotary processing mechanism of a gluing and curing device as claimed in claim 7, wherein the tooling rotary assembly further comprises an engagement adjustment assembly for contacting or separating the engagement block with or from the engagement slot; the connection adjusting assembly comprises a connection cylinder, a connection plate, a connection bearing and a connection guide rod; the connecting cylinder is arranged on the lower surface of the connecting plate, and a cylinder arm of the connecting cylinder penetrates through the connecting plate to be in contact with the lower surface of the tool rotating mounting plate; the linking bearing is arranged on the tool rotating installation plate, the linking bearing penetrates through the linking guide rod, and one end of the linking guide rod is in contact with the upper surface of the linking plate.
9. The rotary processing mechanism of the gluing curing device as claimed in claim 5, wherein openings are arranged at both ends of the spacer space, and one end opening of the spacer space corresponds to the opening of the tooling space; the tool seat is provided with one end of the connecting groove and is in contact with the connecting block through an opening at the other end of the space of the spacer bush.
10. The rotary processing mechanism of a gluing and curing device as claimed in claim 1, wherein the turntable is circular, and the turntable assembly holes are distributed on the turntable in a circular shape; the output end of the rotating motor is connected with the central point of the lower surface of the turntable; the rotating motor is arranged on the table top plate; the tool rotating assembly is also arranged on the table panel and is positioned below the turntable assembling hole.
CN202123166239.0U 2021-12-16 2021-12-16 Rotary machining mechanism of gluing curing equipment Active CN216827011U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202123166239.0U CN216827011U (en) 2021-12-16 2021-12-16 Rotary machining mechanism of gluing curing equipment

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202123166239.0U CN216827011U (en) 2021-12-16 2021-12-16 Rotary machining mechanism of gluing curing equipment

Publications (1)

Publication Number Publication Date
CN216827011U true CN216827011U (en) 2022-06-28

Family

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN202123166239.0U Active CN216827011U (en) 2021-12-16 2021-12-16 Rotary machining mechanism of gluing curing equipment

Country Status (1)

Country Link
CN (1) CN216827011U (en)

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Effective date of registration: 20221214

Address after: No. 28, Guangming Middle Road, Haiyou Street, Sanmen County, Taizhou, Zhejiang 318000

Patentee after: Juli Aoxuan Technology (Zhejiang) Co.,Ltd.

Address before: No.8, Guangming Middle Road, Chengguan, Sanmen County, Taizhou City, Zhejiang Province, 317100

Patentee before: ZHEJIANG JULI ELECTRICAL MACHINERY EQUIPMENT Co.,Ltd.