CN201817126U - Synchronous winding device of thin material punching machine - Google Patents
Synchronous winding device of thin material punching machine Download PDFInfo
- Publication number
- CN201817126U CN201817126U CN2010205204572U CN201020520457U CN201817126U CN 201817126 U CN201817126 U CN 201817126U CN 2010205204572 U CN2010205204572 U CN 2010205204572U CN 201020520457 U CN201020520457 U CN 201020520457U CN 201817126 U CN201817126 U CN 201817126U
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- unreeling shaft
- thin material
- belt conveyor
- major cycle
- pulley
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Abstract
The utility model discloses a synchronous winding device of a thin material punching machine, a winding shaft and an unwinding shaft of the synchronous winding device are respectively positioned at the two ends of a synchronous belt wheel paper advancing mechanism, can be respectively clung to a main circulating conveyor belt of the synchronous belt wheel paper advancing mechanism, and are driven to rotate through the friction of the synchronous belt wheel paper advancing mechanism, the unwinding shaft can simultaneously be driven through the driving mechanism of the unwinding shaft to be separated from or clung to the main circulating conveyor belt to move, so that the switching can be carried out between the two working states, in the first working state, the unwinding shaft can not be driven through the friction of the main circulating conveyor belt to rotate, while in the second working state, the unwinding shaft can be driven through the friction of the main circulating conveyor belt to rotate, and therefore, the winding shaft can be freely separated from or clung to the main circulating conveyor belt to move. The utility model is the synchronous winding device of the thin material punching machine, which can realize 'zero meter' start under the premise without wasting the thin material.
Description
Technical field
The utility model relates to a kind of thin material tapping and plugging machine with running on foot winding apparatus.
Background technology
Thin material is a kind of base model in the industrial materials, a lot of thin materials need prepare intensive micropore, the yew paper of cigarette industry for example, or be the rubber ointment of pharmaceuticals industry, again or artificial leather, packing film etc. also need to carry out intensive breather hole preparation.With yew paper is example, the intake of the objectionable impurities in the time of effectively reducing smoking of punching thereon, thus can alleviate the harm of tobacco greatly to human body.At present, the yew paper hole knockout of development and utilization mainly contains three kinds of the punching of mechanical punching, static and laser beam perforations; And laser beam perforation is owing to possess characteristics such as good stability and accuracy height, the basic equipment of having developed into reducing cigarette tar and reducing.The tipping paper laser beam drilling technology mainly comprises laser optical path conversion and two cores of yew paper constant motion (also promptly walking winding apparatus).
In order to guarantee Stability of Laser Drilling, yew paper must constant motion, so the quality of yew paper constant motion system will determine the quality that yew paper punches.The constant motion system of yew paper drilling system is generally by rolling with unreel two parts and form, after the new yew paper of one volume begins punching, yew paper is emitted from unreeling part gradually, is wound up into the rolling part, and final yew paper is all transferred to the rolling part by unreeling part.
After the new yew paper of one volume begins punching, the certain process that has an acceleration of the kinematic velocity of yew paper.In the process of this acceleration, the kinematic velocity of yew paper increases gradually, finally accelerates to constant kinematic velocity.For tipping paper laser beam drilling, in the process of quickening, laser beam perforation can't be stable.Therefore general in the process of quickening, yew paper does not punch.Like this, a volume has been after new yew paper beaten the hole, the not punching of a part of the inside (diameter minimum) of this coil paper, and this a part of yew paper that does not have to punch generally can be removed by rewinding.So-called rewinding is meant goes further paper once in the past, does not this time punch, and after whole paper had fallen, the yew paper that does not have to punch just was exposed to the most external of paper roll, can directly remove.The shortcoming of doing like this is to increase an operation.
In order to reduce the operation that increases so together, increased " zero a rice " device on the present yew paper tapping and plugging machine.By this device, after yew paper reaches predetermined kinematic velocity, can transfer to automatically on the new collection that the has been synchronized with the movement volume, will speed up the not punching yew paper complete resection of part simultaneously.But such " zero rice " paper cutter has still been wasted a part of paper excision after all.
Summary of the invention
The utility model purpose is: provide a kind of and can be issued to the thin material tapping and plugging machine of " zero rice " startup in the prerequisite of not wasting thin material with running on foot winding apparatus.
The technical solution of the utility model is: a kind of thin material tapping and plugging machine comprises Scroll and unreeling shaft with running on foot winding apparatus; It is characterized in that also comprising synchronous pulley paper advance mechanism and unreeling shaft driver train, described synchronous pulley paper advance mechanism comprises driving pulley, some driven pulleys and is tensioned to the major cycle belt conveyor of each belt wheel periphery that described major cycle belt conveyor is by the perforated area on the thin material tapping and plugging machine; Described Scroll and unreeling shaft lay respectively at the two ends of synchronous pulley paper advance mechanism, and the major cycle belt conveyor and by major cycle belt conveyor friction driven rotary of all can reclining; Wherein said unreeling shaft can break away from by the driving of unreeling shaft driver train or the major cycle belt conveyor action that reclines simultaneously, thereby between two mode of operations, change, on first mode of operation, unreeling shaft can't be by major cycle belt conveyor friction driven rotary, and on second mode of operation, unreeling shaft can be by major cycle belt conveyor friction driven rotary; Then can freely break away from or the recline major cycle belt conveyor action of described Scroll.
Further, the driver train of unreeling shaft described in the utility model is a pneumatic drive mechanism, described pneumatic drive mechanism is positioned at the below of unreeling shaft, the support pulley that it comprises cylinder and is installed in the cylinder push-rod front end, when described unreeling shaft is in first mode of operation, support pulley with unreeling shaft jack-up, unreeling shaft or its peripheral thin material are broken away from around volume and major cycle belt conveyor; And when second mode of operation, cylinder push-rod shrinks, and the unreeling shaft by gravity falls, and unreeling shaft or its peripheral thin material are reclined around volume and major cycle belt conveyor.
Further, the utility model also comprises the supplemental support belt wheel, and the peripheral tensioning of described supplemental support belt wheel and driving pulley has the auxiliary circulation belt conveyor; When unreeling shaft was positioned at first mode of operation, described supplemental support belt wheel supported described unreeling shaft or its peripheral thin material around volume with supporting pulley; And when described unreeling shaft was positioned at second mode of operation, described supplemental support belt wheel supported described unreeling shaft or its peripheral thin material around volume with one of them driven pulley.
Further, unreeling shaft described in the utility model rotation is installed in and unreels on the axle bed, and the described axle bed that unreels is slidedly arranged in the rectilinear orbit on the unreeling shaft support by the slide rail which is provided with.After cylinder push-rod shrinks, the unreeling shaft by gravity will fall so that be converted to second mode of operation from first mode of operation along rectilinear orbit, kinematic accuracy and stability in the time of can improving the unreeling shaft whereabouts greatly by setting up described rectilinear orbit.
Further, Scroll described in the utility model rotation is installed on the rolling axle bed, and described rolling axle bed is slidedly arranged in the rectilinear orbit on the Scroll support by the slide rail which is provided with.Along with the increase of thin material peripheral on the Scroll around coil diameter, Scroll will outwards be offset along rectilinear orbit, be kinematic accuracy and stability when improving the Scroll skew greatly equally by setting up described rectilinear orbit.
With routine techniques speed detection sensor is installed equally on the driving pulley described in the utility model, described speed detection sensor is electrically connected with the controller of thin material tapping and plugging machine, and described pneumatic drive mechanism also comprises the electromagnetic valve that is electrically connected with cylinder, and described controller is electrically connected with the control cylinder push rod flexible with described electromagnetic valve.
Working process of the present utility model and principle are described as follows: when initial, the thin material that the staff will punch is wound on the unreeling shaft in advance, and thin material around the volume the head fixing glue towards outer adhesive tape, this moment, cylinder push-rod ejected, support pulley and supplemental support belt wheel together with unreeling shaft jack-up, the thin material that makes the unreeling shaft periphery is around rolling up the major cycle belt conveyor that can't recline.Subsequent working personnel energized, driving pulley is rotated under the drive of motor, after the rotative speed of driving pulley reaches the required constant speed of punching, speed detection sensor sends a signal to controller, shrink by the solenoid control cylinder push-rod by controller again, remove the support pulley that withstands unreeling shaft, make the track decline along a straight line of unreeling shaft by gravity, up to contact major cycle belt conveyor, and by supplemental support pulley and a follow-up pulley together support.Under the friction force of major cycle belt conveyor and auxiliary circulation belt conveyor drives, the unreeling shaft rotation, because the thin material in advance on unreeling shaft has been fixed the cause of glue towards outer adhesive tape around the head of volume, so thin material can be sticked on the major cycle belt conveyor, and thin material is moved together with the major cycle belt conveyor and punch by the perforated area on the thin material tapping and plugging machine, arrive the Scroll place at last.The cylindrical predetermined fixed of described Scroll has the glue of a whole circle towards outer adhesive tape, and thin material is just transmitted by the major cycle belt conveyor and adheres on the Scroll, and then constantly is wound on the Scroll.
The utility model has the advantages that:
1. the utility model is when work, thin material is not directly just to emit from unreeling shaft, but by a synchronous pulley paper advance mechanism make Scroll and unreeling shaft synchronization and reach steady motion speed after, again the thin material on the unreeling shaft is sticked on the major cycle belt conveyor, punch by perforated area by the transmission of major cycle belt conveyor, be bonded to rolling on the Scroll simultaneously, the contrast prior art, whole process, thin material starts so can be issued to " zero rice " in the prerequisite of not wasting thin material almost without any waste.
2. characteristics such as the utility model is owing to adopt the synchronous pulley paper advance mechanism, and it has constant transmitting ratio, and transmission is accurate, and is fricton-tight during work, and stable drive has buffering, vibration damping, and noise is low.
3. the utility model can be applied to any must reaching on the thin material perforation processing machine that constant speed just can begin to punch, as long as this thin material is a rolling.
Description of drawings
Below in conjunction with drawings and Examples the utility model is further described:
Fig. 1 is the structural representation (unreeling shaft is in first mode of operation) of a kind of mode of operation of the utility model;
Fig. 2 is the structural representation (unreeling shaft is in second mode of operation) of the another kind of mode of operation of the utility model.
Wherein: 1, Scroll; 2, unreeling shaft; 3, driving pulley; 4, driven pulley; 5, major cycle belt conveyor; 6, cylinder; 7, cylinder push-rod; 8, support pulley; 9, supplemental support belt wheel; 10, auxiliary circulation belt conveyor; G, perforated area.
The specific embodiment
Embodiment: in conjunction with Fig. 1, shown in Figure 2, this thin material tapping and plugging machine that present embodiment provides specifically applies to tipping paper laser beam drilling with the winding apparatus of running on foot, needs and tipping paper laser beam drilling machine are used, and it mainly comprises Scroll 1, unreeling shaft 2, synchronous pulley paper advance mechanism, unreeling shaft driver train, supplemental support belt wheel 9 and auxiliary circulation belt conveyor 10.
As shown in Figure 1 and Figure 2, synchronous pulley paper advance mechanism in the present embodiment adopts a driving pulley 3 and five driven pulleys 4 to be arranged into trapezium structure, driving pulley 3 wherein is positioned at the lower left corner, it is rotated by driven by motor, each belt wheel periphery is tensioning major cycle belt conveyor 5 then, and described major cycle belt conveyor 5 is by the perforated area G on the tipping paper laser beam drilling machine.Scroll described in the present embodiment 1 and unreeling shaft 2 lay respectively at the two ends of synchronous pulley paper advance mechanism, 2 rotations of described unreeling shaft are installed in and unreel on the axle bed (omitting among the figure), are slidedly arranged in the rectilinear orbit on the unreeling shaft support (omitting among the figure) by the slide rail which is provided with and unreel axle bed; 1 rotation of described Scroll is installed on the rolling axle bed (omitting among the figure), and the rolling axle bed is slidedly arranged in the rectilinear orbit on the Scroll support (omitting among the figure) by the slide rail which is provided with.By the rectilinear orbit on unreeling shaft support and the Scroll support, the pivot center of described unreeling shaft and Scroll can be offset by relative major cycle belt conveyor 5.Described unreeling shaft driver train adopts pneumatic drive mechanism, pneumatic drive mechanism described in the present embodiment is positioned at the side-lower of unreeling shaft 2, its by cylinder 6, be installed in the support pulley 8 of cylinder push-rod 7 front ends and electromagnetic valve (omitting among the figure) formation that is electrically connected with cylinder 6.The belt wheel of supplemental support described in the present embodiment 9 also is positioned at the below of unreeling shaft 2, and it is installed on the support (omitting among the figure), and with driving pulley 3 peripheral tensionings auxiliary circulation belt conveyor 10 is arranged.On the described driving pulley 3 speed detection sensor is installed, described speed detection sensor is electrically connected with the controller of thin material tapping and plugging machine, and described pneumatic drive mechanism also comprises the electromagnetic valve that is electrically connected with cylinder 6, and described controller is electrically connected with control cylinder push rod 7 flexible with described electromagnetic valve.
Be described as follows in conjunction with Fig. 1, working process and the principle to present embodiment shown in Figure 2: when initial, the yew paper that the staff will punch is wound on the unreeling shaft 2 in advance, and yew paper around the volume the head fixing glue towards outer adhesive tape, as shown in Figure 1, this moment, cylinder push-rod 7 ejected, support pulley 8 and supplemental support belt wheel 9 together with unreeling shaft 2 jack-up, the yew paper of unreeling shaft 2 peripheries is broken away from around volume and major cycle belt conveyor 5, unreeling shaft 2 is on first mode of operation.Subsequent working personnel energized, driving pulley 3 is rotated under the drive of motor, after the rotative speed of driving pulley 3 reaches the required constant speed of punching, speed detection sensor sends a signal to controller, shrink by solenoid control cylinder push-rod 7 by controller again, remove the support pulley 8 that withstands unreeling shaft 2, make the track decline along a straight line of unreeling shaft 2 by gravitys, up to its peripheral yew paper around the volume major cycle belt conveyor 5 that reclines, as shown in Figure 2, unreeling shaft 2 is by supplemental support pulley 9 and follow-up pulley 4 together support at this moment, and it is on second mode of operation.Under the friction force of major cycle belt conveyor 5 and auxiliary circulation belt conveyor 10 drives, unreeling shaft 2 rotations, because the yew paper in advance on unreeling shaft 2 has been fixed the cause of glue towards outer adhesive tape around the head of volume, so yew paper can be sticked on the major cycle belt conveyor 5, and yew paper is punched by the perforated area G on the tipping paper laser beam drilling machine with 5 motions of major cycle belt conveyor, arrive Scroll 1 place at last.The cylindrical predetermined fixed of described Scroll 1 has the glue of a whole circle towards outer adhesive tape, and yew paper is transmitted by major cycle belt conveyor 5 and just adheres on the Scroll 1, and then constantly is wound on the Scroll 1.
Claims (6)
1. a thin material tapping and plugging machine comprises Scroll (1) and unreeling shaft (2) with running on foot winding apparatus; It is characterized in that also comprising synchronous pulley paper advance mechanism and unreeling shaft driver train, described synchronous pulley paper advance mechanism comprises driving pulley (3), some driven pulleys (4) and is tensioned to the major cycle belt conveyor (5) of each belt wheel periphery that described major cycle belt conveyor (5) is by the perforated area (G) on the thin material tapping and plugging machine; Described Scroll (1) and unreeling shaft (2) lay respectively at the two ends of synchronous pulley paper advance mechanism, and the major cycle belt conveyor (5) and by major cycle belt conveyor (5) friction driven rotary of all can reclining; Wherein said unreeling shaft (2) can break away from by the driving of unreeling shaft driver train or major cycle belt conveyor (5) action that reclines simultaneously, thereby between two mode of operations, change, on first mode of operation, unreeling shaft (2) can't be by major cycle belt conveyor (5) friction driven rotary, and on second mode of operation, unreeling shaft (2) can be by major cycle belt conveyor (5) friction driven rotary; Described Scroll (1) then can freely break away from or recline major cycle belt conveyor (5) action.
2. thin material tapping and plugging machine according to claim 1 is with running on foot winding apparatus, it is characterized in that described unreeling shaft driver train is a pneumatic drive mechanism, described pneumatic drive mechanism is positioned at the below of unreeling shaft (2), it comprises cylinder (6) and is installed in the support pulley (8) of cylinder push-rod (7) front end, when described unreeling shaft (2) is in first mode of operation, support pulley (8) with unreeling shaft (2) jack-up, unreeling shaft (2) or its peripheral thin material are broken away from around volume and major cycle belt conveyor (5); And when second mode of operation, cylinder push-rod (7) shrinks, and unreeling shaft (2) by gravity falls, and unreeling shaft (2) or its peripheral thin material are reclined around volume and major cycle belt conveyor (5).
3. thin material tapping and plugging machine according to claim 2 is characterized in that also comprising supplemental support belt wheel (9) with running on foot winding apparatus, and described supplemental support belt wheel (9) has auxiliary circulation belt conveyor (10) with the peripheral tensioning of driving pulley (3); When unreeling shaft (2) was positioned at first mode of operation, described supplemental support belt wheel (9) supported described unreeling shaft (2) or its peripheral thin material around volume with supporting pulley (8); And when described unreeling shaft (2) was positioned at second mode of operation, described supplemental support belt wheel (9) supported described unreeling shaft (2) or its peripheral thin material around volume with one of them driven pulley (4).
4. according to claim 1 or the same winding apparatus of running on foot of 2 or 3 described thin material tapping and plugging machine, it is characterized in that described unreeling shaft (2) rotation is installed in unreels on the axle bed, and the described axle bed that unreels is slidedly arranged in the rectilinear orbit on the unreeling shaft support by the slide rail which is provided with.
5. according to claim 1 or the same winding apparatus of running on foot of 2 or 3 described thin material tapping and plugging machine, it is characterized in that described Scroll (1) rotation is installed on the rolling axle bed, and described rolling axle bed is slidedly arranged in the rectilinear orbit on the Scroll support by the slide rail which is provided with.
6. thin material tapping and plugging machine according to claim 2 is with running on foot winding apparatus, it is characterized in that on the described driving pulley (3) speed detection sensor being installed, described speed detection sensor is electrically connected with the controller of thin material tapping and plugging machine, and described pneumatic drive mechanism also comprises the electromagnetic valve that is electrically connected with cylinder (6), and described controller is electrically connected with control cylinder push rod (7) flexible with described electromagnetic valve.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN2010205204572U CN201817126U (en) | 2010-09-08 | 2010-09-08 | Synchronous winding device of thin material punching machine |
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Application Number | Priority Date | Filing Date | Title |
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CN2010205204572U CN201817126U (en) | 2010-09-08 | 2010-09-08 | Synchronous winding device of thin material punching machine |
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CN201817126U true CN201817126U (en) | 2011-05-04 |
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CN2010205204572U Expired - Lifetime CN201817126U (en) | 2010-09-08 | 2010-09-08 | Synchronous winding device of thin material punching machine |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101955079A (en) * | 2010-09-08 | 2011-01-26 | 苏州市博海激光科技有限公司 | Synchronous rolling device of thin material punching machine |
CN107689188A (en) * | 2017-09-30 | 2018-02-13 | 中国烟草总公司职工进修学院 | Cigarette sealed in unit motion control semi-physical simulation platform |
-
2010
- 2010-09-08 CN CN2010205204572U patent/CN201817126U/en not_active Expired - Lifetime
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101955079A (en) * | 2010-09-08 | 2011-01-26 | 苏州市博海激光科技有限公司 | Synchronous rolling device of thin material punching machine |
CN101955079B (en) * | 2010-09-08 | 2012-05-30 | 苏州市博海激光科技有限公司 | Synchronous rolling device of thin material punching machine |
CN107689188A (en) * | 2017-09-30 | 2018-02-13 | 中国烟草总公司职工进修学院 | Cigarette sealed in unit motion control semi-physical simulation platform |
CN107689188B (en) * | 2017-09-30 | 2023-12-29 | 中国烟草总公司职工进修学院 | Motion control semi-physical simulation platform of cigarette packaging equipment |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20110504 Effective date of abandoning: 20120530 |