CN216945462U - Cloth clamping structure of scroll machine - Google Patents
Cloth clamping structure of scroll machine Download PDFInfo
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- CN216945462U CN216945462U CN202123174104.9U CN202123174104U CN216945462U CN 216945462 U CN216945462 U CN 216945462U CN 202123174104 U CN202123174104 U CN 202123174104U CN 216945462 U CN216945462 U CN 216945462U
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- cloth
- subassembly
- scroll machine
- clamping structure
- scroll
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Abstract
The application relates to the technical field of scroll machines and discloses a fabric clamping structure of a scroll machine. The cloth rolling mechanism comprises a first sliding rail arranged on a support plate of a frame of the scroll machine, a slidable cloth clamping support plate is arranged on the first sliding rail, a groove type cloth clamping assembly is arranged on the cloth clamping support plate, and the cloth rolling mechanism further comprises a cloth rolling assembly connected to the support plate of the frame of the scroll machine and a cloth returning assembly arranged on the cloth rolling assembly in a sliding way. Through setting up recess formula double-layered cloth subassembly, can provide certain space for the batching subassembly, make double-layered cloth subassembly carry the banner cloth on the interior reel smoothly, later the batching subassembly through rotating the tight banner cloth of clamp, the back is by adopting the cloth subassembly that moves back of recess formula design to mutually support with interior reel and move back cloth to avoid appearing pressing from both sides the problem that can't reach cloth or leak double-layered cloth, greatly improved the work efficiency of scroll machine.
Description
Technical Field
The application relates to the technical field of scroll post-processing, in particular to a cloth clamping structure of a scroll machine.
Background
At present, due to the mechanical structure of a scroll winding device, the phenomena of cloth clamping failure, cloth leakage and the like easily occur in the production process, the problems of scroll cloth waste, low working efficiency and the like are caused, and a plurality of troubles such as cost rise are caused for practitioners. In order to actually improve the working efficiency of a scroll machine and avoid the phenomenon that cloth cannot be clamped or is missed in the working process, a cloth clamping structure of the scroll machine is provided to solve the technical problem.
SUMMERY OF THE UTILITY MODEL
In order to solve the technical problem, the application provides a fabric clamping structure of a scroll machine, which adopts a slotted fixed-point fabric clamping mode and can effectively reduce the phenomenon that the machine cannot clamp fabric or leaks the fabric in the operation process.
The application provides a pair of cloth structure is pressed from both sides to scroll machine adopts following technical scheme:
the utility model provides a cloth clamping structure of scroll machine, is including setting up slide rail one in scroll machine skeleton backup pad, slidable installs the erection bracing board on the slide rail one, be provided with recess formula in the erection bracing board and press from both sides cloth subassembly, still establish the cloth subassembly that moves back on the cloth subassembly including rotating the cloth subassembly and the slip cover of connecting in scroll machine skeleton backup pad.
By adopting the technical scheme: through setting up recess formula clamp cloth subassembly, the recess can give away certain space for the batching subassembly, can create bigger space for pressing from both sides cloth promptly, reduces to press from both sides the condition that can not reach cloth as far as, has improved centre gripping efficiency, rotates after the batching subassembly centre gripping cloth and receives cloth, and the batching subassembly can carry out just reversing, moves back the cloth subassembly at the last accessible of reversal and moves back cloth and move back cloth.
Optionally, the groove type cloth clamping assembly comprises a first driving assembly arranged on a support plate of the frame of the reeling machine, the first driving assembly drives and is connected with an installation support plate, an upper cloth clamping plate and a lower cloth clamping plate are arranged on the installation support plate, the upper cloth clamping plate is movably arranged on the installation support plate, and a plurality of groups of grooves which correspond up and down are arranged on the upper cloth clamping plate and the lower cloth clamping plate.
By adopting the technical scheme: drive the erection bracing board at drive assembly one and remove cloth head department, the cloth head is in on press from both sides between the cloth board and the lower cloth board that presss from both sides, it is descended by the electro-magnet drive to press from both sides the cloth board on, hold the cloth head with lower grip block jointly, later move to interior reel department under drive assembly one's drive, on press from both sides the cloth board and press from both sides the recess that corresponds about a plurality of groups that are equipped with on the cloth board down and interior reel corresponding recess with it and can give out certain space for batching subassembly, make the length of pressing from both sides cloth bigger, stability is higher.
Optionally, a back roll supporting frame is arranged on the frame supporting plate of the scroll machine, a back roll supporting shaft is fixedly connected to the back roll supporting frame, and the cloth rolling assembly is rotatably connected to the back roll supporting shaft.
By adopting the technical scheme: the back roll supporting frame and the back roll supporting shaft are both used as mounting carriers, so that the mounting of the batching assembly is more convenient, and the actions are convenient to share time and are uniform.
Optionally, the batching subassembly is including rotating the center pin of connecting at back roll support shaft, fixedly connected with inner reel on the center pin, the inner reel outside is equipped with the outer spool, the outer spool rotates to be connected at back roll support shaft, the last grip block that corresponds with the recess that is equipped with of inner reel.
By adopting the technical scheme: the groove type cloth clamping assembly drives the cloth head to reach the central shaft, the central shaft moves to drive the inner roll to rotate towards the cloth head, the clamping block is matched with the groove to clamp the cloth head in the rotating process, and then the outer roll rotates to enable the cloth to be gradually wound into a roll.
Optionally, the central shaft is driven to rotate by the driving component II, and the outer reel is driven to rotate by the driving component III.
By adopting the technical scheme: the second driving assembly can drive the central shaft to move first to clamp the cloth, and then the outer reel starts to rotate to gradually wind the cloth into a roll.
Optionally, move back the cloth subassembly and include slide rail two and slide the cloth support frame that moves back that sets up on slide rail two, move back fixedly connected with on the cloth support frame and move back the cloth ring, move back the cloth ring cover and establish on the outer spool of batching subassembly.
By adopting the technical scheme: when the cloth is retreated, other driving parts such as an air cylinder and the like drive the cloth retreating support frame to move, and the cloth head is retreated from the outer reel by moving from one end of the outer reel to the other end.
Optionally, the first driving assembly comprises a first motor arranged on a support plate of the frame of the scroll machine, a first driven wheel is connected to the support plate in a rotating mode, a first driving wheel is arranged on an output shaft of the first motor, and the first driving wheel is connected with the first driven wheel through a synchronous belt.
By adopting the technical scheme: the motor rotates, and the installation supporting plate can be driven by the synchronous belt to slide on the sliding rail I.
Optionally, the second driving assembly comprises a servo motor installed on the back roll supporting frame, a second driven wheel is fixedly connected to the central shaft, a second driving wheel is arranged on an output shaft of the servo motor, and the second driving wheel is connected with the second driven wheel through a synchronous belt.
By adopting the technical scheme: the servo motor rotates, and the synchronous belt drives the inner reel to rotate at a certain angle, so that the cloth head is clamped preferentially.
Optionally, the driving assembly three comprises a third driven wheel fixed on the outer winding shaft, a third motor is fixedly connected to the rear winding support frame, a third driving wheel is fixedly connected to an output shaft of the third motor, and the third driving wheel is connected with the third driven wheel through a synchronous belt.
By adopting the technical scheme: the motor III rotates, the synchronous belt drives the outer reel to rotate, and the winding and coiling of the cloth are achieved.
In summary, the present application includes at least one of the following beneficial technical effects:
1. through setting up recess formula clamp cloth subassembly, the recess can give certain space for the batching subassembly, can create bigger space for pressing from both sides the cloth promptly, reduces the circumstances that can't press from both sides the cloth as far as, has improved centre gripping efficiency, rotates after the batching subassembly grips the cloth and receives the cloth, and the batching subassembly can carry out just reversing, moves back the cloth subassembly at the last accessible of reversing and moves back the cloth.
2. The groove type cloth clamping assembly drives the cloth head to reach the central shaft, the central shaft moves to drive the inner roll to rotate towards the cloth head, the clamping block is matched with the groove to clamp the cloth head in the rotating process, and then the outer roll rotates to enable the cloth to be gradually wound into a roll.
Drawings
FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;
fig. 2 is a partial structural schematic diagram of an embodiment of the present application.
Description of reference numerals: 100. a first slide rail; 200. mounting a support plate; 300. a groove type cloth clamping component; 310. a first driving component; 311. a first motor; 312. a driven wheel I; 313. a first driving wheel; 320. a cloth clamping plate is arranged; 330. a lower cloth clamping plate; 340. a groove; 400. a cloth rolling assembly; 410. a central shaft; 420. an inner reel; 430. an outer reel; 440. a clamping block; 450. a second driving component; 451. a servo motor; 452. a second driven wheel; 453. a second driving wheel; 460. a driving component III; 461. a driven wheel III; 462. a third motor; 463. a driving wheel III; 500. a cloth withdrawing assembly; 510. a second slide rail; 520. a cloth removing support frame; 530. a cloth removing ring; 600. a back roll support frame; 700. the back roll supports the shaft.
Detailed Description
The present application is described in further detail below with reference to figures 1-2.
The embodiment of the application discloses cloth clamping structure of a scroll machine, which specifically comprises the following steps:
referring to fig. 1 and 2, the fabric clamping structure of the scroll machine provided by the embodiment is mainly used for clamping a fabric head better, and mainly comprises a first sliding rail 100 arranged on a support plate of the scroll machine frame, wherein the first sliding rail 100 can be a T-shaped sliding rail, and the like, as long as the sliding and limiting requirements can be met, an installation support plate 200 is slidably arranged on the first sliding rail 100, a groove type fabric clamping component 300 is arranged on the installation support plate 200, and the fabric clamping structure further comprises a fabric returning component 500 which is rotatably connected to the fabric rolling component 400 arranged on the support plate of the scroll machine frame and a sliding sleeve arranged on the fabric rolling component 400. Certainly still including the controller of each above-mentioned subassembly action of control, press from both sides cloth subassembly 300 through setting up the recess formula, traditional double-layered cloth mode has been changed, recess 340 can let out certain space for batching subassembly 400, can create bigger space for pressing from both sides cloth promptly, the condition that can't press from both sides cloth is reduced as far as, the centre gripping efficiency has been improved, rotate after batching subassembly 400 grasps the cloth and receive cloth, batching subassembly 400 can carry out positive and negative commentaries on classics, the cloth subassembly 500 is moved back to the last accessible of reversal.
Referring to fig. 1 and 2, in order to achieve better cloth head clamping, the concave-groove type cloth clamping assembly 300 in this embodiment includes a first driving assembly 310 disposed on the support plate of the frame of the winding machine, the first driving assembly 310 is connected to the mounting support plate 200 in a driving manner, an upper cloth clamping plate 320 and a lower cloth clamping plate 330 are disposed on the mounting support plate 200, the upper cloth clamping plate 320 is movably disposed on the mounting support plate 200, and a plurality of groups of concave grooves 340 corresponding to each other up and down are disposed on the upper cloth clamping plate 320 and the lower cloth clamping plate 330. Drive installation backup pad 200 at drive assembly 310 and remove cloth head department, the cloth head is in on press from both sides between cloth board 320 and the lower clamp cloth board 330, it descends to go up clamp cloth board 320 by other driving pieces such as cylinder drive, with the common centre gripping cloth head of lower grip block, later reverse motion to batching subassembly 400 department under drive assembly 310's drive, go up the recess 340 that corresponds about a plurality of groups that are equipped with on clamp cloth board 320 and the lower clamp cloth board 330 and can let out certain space for batching subassembly 400, make the length of pressing from both sides the cloth bigger, stability is higher.
Referring to fig. 1 and 2, in order to facilitate installation, a back roll support frame 600 is disposed on the frame support plate of the winding machine, a back roll support shaft 700 is fixedly connected to the back roll support frame 600, and the cloth winding assembly 400 is rotatably connected to the back roll support shaft 700. The back roll supporting frame 600 and the back roll supporting shaft 700 are both used as mounting carriers, so that the cloth rolling assembly 400 is more convenient to mount, and the actions are convenient to share.
Referring to fig. 1 and 2, in order to realize the cloth rolling, the cloth rolling assembly 400 in this embodiment includes a central shaft 410 rotatably connected to a back roll supporting shaft 700, an inner reel 420 is fixedly connected to the central shaft 410, an outer reel 430 is disposed outside the inner reel 420, the outer reel 430 is rotatably connected to the back roll supporting shaft 700, and a clamping block 440 corresponding to the groove 340 is disposed on the inner reel 420. When the groove type cloth clamping assembly 300 drives the cloth head to reach the central shaft 410, the central shaft 410 drives the inner reel 420 to rotate towards the cloth head, in the rotating process, the clamping block 440 is matched with the groove 340 to clamp the cloth head, and then the outer reel 430 rotates, so that the cloth is gradually wound into a roll.
Referring to fig. 1 and 2, the central shaft 410 is rotated by a second driving assembly 450, and the outer reel 430 is rotated by a third driving assembly 460. The second driving assembly 450 may drive the central shaft 410 to clamp the fabric, and then the outer reel 430 starts to rotate to gradually wind the fabric into a roll.
Referring to fig. 1 and 2, the cloth unwinding assembly 500 includes a second sliding rail 510 and a cloth unwinding support frame 520 slidably disposed on the second sliding rail 510, a cloth unwinding ring 530 is fixedly connected to the cloth unwinding support frame 520, and the cloth unwinding ring 530 is sleeved on the outer winding shaft 430 of the cloth winding assembly 400. When the cloth is unwound, other driving members, such as an air cylinder, drive the cloth unwinding support 520 to move from one end of the outer winding shaft 430 to the other end, and the cloth head is unwound from the outer winding shaft 430.
Referring to fig. 1 and 2, the first driving assembly 310 includes a first motor 311 disposed on the support plate of the frame of the winding machine, a first driven wheel 312 rotatably connected to the mounting support plate 200, a first driving wheel 313 disposed on an output shaft of the first motor 311, and the first driving wheel 313 and the first driven wheel 312 connected through a synchronous belt. The first motor 311 rotates, and the first installation support plate 200 can be driven by the synchronous belt to slide on the first slide rail 100.
Referring to fig. 1 and 2, the second driving assembly 450 includes a servo motor 451 mounted on the back roll supporting frame 600, a second driven wheel 452 is fixedly connected to the central shaft 410, a second driving wheel 453 is disposed on an output shaft of the servo motor 451, and the second driving wheel 453 and the second driven wheel 452 are connected through a timing belt. The servo motor 451 rotates and is driven by the synchronous belt, so that the inner scroll 420 can rotate at a certain angle, and the cloth head is clamped preferentially.
Referring to fig. 1 and 2, the driving assembly three 460 includes a driven wheel three 461 fixed on the outer winding shaft 430, a motor three 462 is fixedly connected to the rear winding support frame 600, a driving wheel three 463 is fixedly connected to an output shaft of the motor three 462, and the driving wheel three 463 is connected with the driven wheel three 461 through a synchronous belt. The third motor 462 rotates to drive the outer scroll 430 to rotate through the synchronous belt, and therefore the cloth is wound into a roll.
The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, so: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.
Claims (9)
1. The utility model provides a fabric clamping structure of a scroll machine which characterized in that: including setting up slide rail one (100) in the scroll machine skeleton backup pad, slidable installs erection bracing board (200) on slide rail one (100), be provided with recess formula on erection bracing board (200) and press from both sides cloth subassembly (300), still establish moving back cloth subassembly (500) on cloth subassembly (400) including rotating batching subassembly (400) and the slip cap of connecting in scroll machine skeleton backup pad.
2. The fabric clamping structure of the scroll machine according to claim 1, wherein: groove type presss from both sides cloth subassembly (300) is including setting up drive assembly (310) in the scroll skeleton backup pad, installation backup pad (200) is connected in drive assembly (310) drive, be equipped with on installation backup pad (200) and press from both sides cloth board (320) and press from both sides cloth board (330) down, on press from both sides the mobilizable setting of cloth board (320) on installation backup pad (200), on press from both sides cloth board (320) and press from both sides cloth board (330) and be equipped with recess (340) that correspond from top to bottom of a plurality of groups.
3. The fabric clamping structure of the scroll machine according to claim 2, wherein: be equipped with back book support frame (600) in the scroll frame backup pad, roll up back support shaft (700) after fixedly connected with on back book support frame (600), batching subassembly (400) rotate to be connected on back book support shaft (700).
4. The fabric clamping structure of the scroll machine according to claim 3, wherein: batching subassembly (400) including rotating center pin (410) of being connected on back book back shaft (700), fixedly connected with interior spool (420) on center pin (410), interior spool (420) outside is equipped with outer spool (430), outer spool (430) are rotated and are connected on back book back shaft (700), be equipped with grip block (440) that correspond with recess (340) on interior spool (420).
5. The fabric clamping structure of the scroll machine according to claim 4, wherein: the central shaft (410) is driven to rotate by a second driving component (450), and the outer reel (430) is driven to rotate by a third driving component (460).
6. The fabric clamping structure of the scroll machine according to claim 1, wherein: move back cloth subassembly (500) and include that slide rail two (510) and slip setting move back cloth support frame (520) on slide rail two (510), move back fixedly connected with on cloth support frame (520) and move back cloth ring (530), move back cloth ring (530) cover and establish on the outer spool (430) of batching subassembly (400).
7. The fabric clamping structure of the scroll machine according to claim 2, wherein: the first driving assembly (310) comprises a first motor (311) arranged on a support plate of the frame of the scroll machine, a first driven wheel (312) is connected to the mounting support plate (200) in a rotating mode, a first driving wheel (313) is arranged on an output shaft of the first motor (311), and the first driving wheel (313) is connected with the first driven wheel (312) through a synchronous belt.
8. The fabric clamping structure of the scroll machine according to claim 5, wherein: the second driving assembly (450) comprises a servo motor (451) installed on the back roll supporting frame (600), a second driven wheel (452) is fixedly connected to the central shaft (410), a second driving wheel (453) is arranged on an output shaft of the servo motor (451), and the second driving wheel (453) is connected with the second driven wheel (452) through a synchronous belt.
9. The fabric clamping structure of the scroll machine according to claim 5, wherein: the third driving assembly (460) comprises a third driven wheel (461) fixed on the outer winding shaft (430), a third motor (462) is fixedly connected onto the rear winding support frame (600), a third driving wheel (463) is fixedly connected onto an output shaft of the third motor (462), and the third driving wheel (463) is connected with the third driven wheel (461) through a synchronous belt.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202123174104.9U CN216945462U (en) | 2021-12-16 | 2021-12-16 | Cloth clamping structure of scroll machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202123174104.9U CN216945462U (en) | 2021-12-16 | 2021-12-16 | Cloth clamping structure of scroll machine |
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CN216945462U true CN216945462U (en) | 2022-07-12 |
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CN202123174104.9U Active CN216945462U (en) | 2021-12-16 | 2021-12-16 | Cloth clamping structure of scroll machine |
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2021
- 2021-12-16 CN CN202123174104.9U patent/CN216945462U/en active Active
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