CN205204429U - A pile up and send ticket device that is used for flexible approaching to block ticket paper - Google Patents

A pile up and send ticket device that is used for flexible approaching to block ticket paper Download PDF

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Publication number
CN205204429U
CN205204429U CN201520834570.0U CN201520834570U CN205204429U CN 205204429 U CN205204429 U CN 205204429U CN 201520834570 U CN201520834570 U CN 201520834570U CN 205204429 U CN205204429 U CN 205204429U
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China
Prior art keywords
ticket
roll wheel
synchronous pulley
backup pad
lower roll
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CN201520834570.0U
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Chinese (zh)
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姜利
邓胜江
戴建强
冯子豪
汪洋
张小山
高峰
张正普
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China Academy of Railway Sciences Corp Ltd CARS
Institute of Computing Technologies of CARS
Beijing Jingwei Information Technology Co Ltd
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China Academy of Railway Sciences Corp Ltd CARS
Institute of Computing Technologies of CARS
Beijing Jingwei Information Technology Co Ltd
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Priority to CN201520834570.0U priority Critical patent/CN205204429U/en
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Abstract

The utility model relates to a ticket issuing equipment field especially relates to a pile up and send ticket device that is used for flexible approaching to block ticket paper. It includes supporting mechanism and transmitting mechanism, and transmitting mechanism is including conveying subassembly and can be for conveying the subassembly convey down that the subassembly moves between a high position and low level on down. Convey the subassembly down including leading down the ticket board and along the direction of transfer of ticket paper, rotationally support two at least lower running rollers on leading the ticket board under in proper order. On convey that the subassembly includes the backup pad and with at least two lower running roller one -to -one ground, rotationally support running roller on in last backup pad at least two. Be in when high -order at the last subassembly that conveys, go up the running roller and break away from with running roller down, go up the running roller and rotate with the conveying with the running roller is common down when conveying the subassembly and being in the low level last ticket paper descends to lead ticket board and last backup pad and constitutes the spacing of upper and lower direction with ticket paper multipoint attachment and to ticket paper respectively. Should pile up and send the strong adaptability of ticket device to the flexible thin card ticket paper of different amounts of deflection.

Description

Ticket device is sent for the stacking of flexible thin card ticket paper
Technical field
The utility model relates to ticket issuing equipment field, particularly relates to a kind ofly to send ticket device for the stacking of flexible thin card ticket paper.
Background technology
Beijing-Tianjin inter-city in 2008 open-minded, pull open the prelude of China Express Railway fast development, in recent years, along with increasing gradually of circuit is opened in railway transport of passengers, China railways commuter service level is also significantly promoted, the popularization of particularly internet ticketing in 2011, automatic ticketing and automatically get tickets and start place in operation at national large and small fire station, Possum, while alleviation station ticketing personnel labor intensity, also proposes higher requirement to automatic equipment.
Because China is vast in territory, temperature humidity has very large difference, and Railway station often adopts the flexible thin card ticket paper of different amount of deflection because of region reason.And the stacking ticket device that send used at present is to the bad adaptability of the flexible thin card ticket paper of different amount of deflection, generally there is card ticket phenomenon.
Utility model content
(1) technical matters that will solve
The technical problems to be solved in the utility model is to provide a kind of the adaptable stacking of flexible thin card ticket paper to different amount of deflection and send ticket device.
(2) technical scheme
In order to solve the problems of the technologies described above, the utility model provides a kind of and send ticket device for the stacking of flexible thin card ticket paper, comprise supporting mechanism and be supported on transmitting mechanism on supporting mechanism, transmitting mechanism comprises lower transfer assembly and above lower transfer assembly and the upper transfer assembly that can move between high-order and low level relative to lower transfer assembly; Wherein, under lower transfer assembly comprises, lead ticket plate and at least two lower roll wheels, at least two lower roll wheels along ticket paper direction of transfer, be supported on down successively and lead on ticket plate rotationally; Wherein, upper transfer assembly comprises upper backup pad and at least two upper roll wheels, and at least two upper roll wheels are supported on upper backup pad with at least two lower roll wheels correspondingly, rotationally; Wherein, when upper transfer assembly is in a high position, upper roll wheel and lower roll wheel depart from, when upper transfer assembly is in low level, upper roller and bottom roller common rotation to transmit described ticket paper, and, under lead ticket plate and upper backup pad and ticket paper Multi-contact and the spacing of above-below direction formed to ticket paper.
According to the utility model, upper backup pad is supported on supporting mechanism rotationally, and upper transfer assembly is rotation relative to the motion of lower transfer assembly between a high position and low level.
According to the utility model, also comprise: the first driver train driving upper backup pad to rotate to realize transfer assembly between high-order and low level to rotate between high-order and low level; Wherein, first driver train comprises the first propulsion source providing rotational kinetic energy and the cam link mechanism be connected between the first propulsion source and upper backup pad, and the rotational kinetic energy of the first propulsion source is driven to upper backup pad in the mode driving upper backup pad and rotate between high-order and low level by cam link mechanism.
According to the utility model, cam link mechanism comprises cam, the first rotary connection bar and the first rotary connection post; Wherein, cam is connected to the first propulsion source in mode rotational kinetic energy being converted into own rotation; First rotary connection bar is connected between cam and the first rotary connection post in the mode of the translation rotation of cam being converted into the first rotary connection post; First rotary connection post is connected to upper backup pad in the mode driving upper backup pad and rotate between high-order and low level.
According to the utility model, also comprise: drive the second driver train that at least one running roller in often pair of corresponding upper roll wheel and lower roll wheel rotates, wherein, second driver train comprises the second propulsion source and synchronous belt drive mechanism that provide rotational kinetic energy, and synchronous belt drive mechanism is connected between the second propulsion source and the running roller of rotation in the mode of rotation rotational kinetic energy being converted into a running roller in often pair of corresponding upper roll wheel and lower roll wheel.
According to the utility model, at least two lower roll wheels are three lower roll wheels, and the direction of transfer be respectively along ticket paper sets gradually the first lower roll wheel, the second lower roll wheel and the 3rd lower roll wheel, at least two upper roll wheels are three upper roll wheels, are respectively and the first lower roll wheel, the second lower roll wheel, the 3rd lower roll wheel the first upper roll wheel, the second upper roll wheel and the 3rd upper roll wheel one to one, synchronous belt drive mechanism comprises the first synchronous pulley, the second synchronous pulley, the 3rd synchronous pulley, the 4th synchronous pulley, the 5th synchronous pulley, the first Timing Belt, the second Timing Belt, shaft, the first gear, the second gear, wherein, first synchronous pulley is connected with it in the mode rotational kinetic energy of the second propulsion source being converted into himself rotation, first Timing Belt with the rotation of the first synchronous pulley is converted into second and the 3rd the mode of rotation of synchronous pulley be connected to first, second and the 3rd between synchronous pulley, second synchronous pulley is connected with it in the mode driving shaft and rotate, shaft is connected with it to drive the mode of the first pinion rotation, first gear engages with it to drive the mode of the second pinion rotation, second gear is connected with it to drive the mode of the second lower roll wheel rotation, 3rd synchronous pulley is connected with it to drive the mode of the 3rd upper roll wheel rotation, 3rd upper roll wheel is connected with it to drive the mode of the 4th synchronous pulley rotation, 4th synchronous pulley is connected with it to drive the mode of the second Timing Belt rotation, second Timing Belt is connected with it to drive the mode of the 5th synchronous pulley rotation, 5th synchronous pulley is connected with it to drive the mode of the first upper roll wheel rotation, when upper transfer assembly is positioned at low level, the first upper roll wheel is to drive mode and its pressing of the first lower roll wheel rotation, and the second lower roll wheel is to drive mode and its pressing of the second upper roll wheel rotation, and the 3rd upper roll wheel is to drive mode and its pressing of the 3rd lower roll wheel rotation.
According to the utility model, the driving wheel in often pair of corresponding upper roll wheel and lower roll wheel is rubber roll wheel, and the two ends of the wheel shaft of flower wheel are provided with torsion spring, and when upper transfer assembly is positioned at low level, flower wheel is by the torsion of torsion spring and driving wheel pressing.
According to the utility model, in often pair of corresponding upper roll wheel and lower roll wheel, at least one running roller is rubber roll wheel.
According to the utility model, transmitting mechanism also comprises gear ticket plate, is connected to the connecting rod mechanism kept off between ticket plate and upper backup pad; Move to low level with upper transfer assembly from a high position, connecting rod mechanism drive gear ticket plate from the gear ticket position protruding from the upper surface of leading ticket plate move to lower than under lead the position of stepping down of the upper surface of ticket plate; With upper transfer assembly from lower position to a high position, connecting rod mechanism drives gear ticket plate to move to gear ticket position from position of stepping down.
According to the utility model, connecting rod mechanism comprises the second rotary connection post and the second rotary connection bar, and upper backup pad, the second rotary connection post, the second rotary connection bar are connected successively with gear ticket plate.
(3) beneficial effect
Technique scheme tool of the present utility model has the following advantages:
Of the present utility modelly send ticket device for the stacking of flexible thin card ticket paper, comprise supporting mechanism and be supported on the transmitting mechanism on supporting mechanism, transmitting mechanism comprises lower transfer assembly and above lower transfer assembly and the upper transfer assembly that can move between high-order and low level relative to lower transfer assembly, ticket plate and at least two lower roll wheels are led under lower transfer assembly comprises, at least two lower roll wheels are along the direction of transfer of ticket paper, be supported on down successively rotationally and lead on ticket plate, wherein, upper transfer assembly comprises upper backup pad and at least two upper roll wheels, at least two upper roll wheels and at least two lower roll wheels are correspondingly, be supported on rotationally on upper backup pad, when upper transfer assembly is in a high position, upper roll wheel and lower roll wheel depart from, when upper transfer assembly is in low level, upper roll wheel and lower roll wheel common rotation are to transmit described ticket paper, and, under lead ticket plate and upper backup pad and ticket paper Multi-contact and the spacing of above-below direction formed to ticket paper.Thus, when upper transfer assembly is positioned at a high position, the flexible thin card ticket paper that ticket module processed is sent is deposited in down the top of leading ticket plate, when upper transfer assembly is positioned at low level, rotated by the pressing of often pair of corresponding upper roll wheel and lower roll wheel and transmit flexible thin card ticket paper, and by forming the spacing of above-below direction with above-mentioned " Multi-contact ".Can understand, the flexible thin card ticket paper sent by ticket module processed has certain sinuousness, in transport process, above-below direction spacing can less any amount of deflection, the sinuousness of bending flexible thin card ticket paper.Thus, make module to the flexible thin card ticket paper strong adaptability of different amount of deflection.
Accompanying drawing explanation
Fig. 1 is that stacking the first axle of ticket device embodiment that send for flexible thin card ticket paper of the present utility model measures intention;
Fig. 2 is that stacking the second axle of ticket device that send for flexible thin card ticket paper in Fig. 1 measures intention;
Fig. 3 is the stacking inside partial schematic diagram sending ticket device for flexible thin card ticket paper in Fig. 1.
In figure:
1: left side board; 2: the first rotary connection bars; 3: the first rotary connection posts; 4: pillar stiffener; 5: right side board; 6: the second middle torsion springs; 7: static bruss: 8: under lead ticket plate; 9: the first lower roll wheels; Torsion spring after 10: the first; 11: the first propulsions source; 12: cam; 13: the first synchronous pulleys; 14: the second propulsions source; 15: the second synchronous pulleys; 16: the first Timing Belts; 17: gear ticket plate; Torsion spring before 18: the first; 19: the second rotary connection bars; 20: the three synchronous pulleys; 21: the second rotary connection posts; 22: the five synchronous pulleys; 23: the first upper roll wheels; 24: the first middle torsion springs; 25: the second upper roll wheels; 26: upper backup pad; 27: the second Timing Belts; 28: the three upper roll wheels; 29: the four synchronous pulleys; 30: the three lower roll wheels; Torsion spring before 31: the second; 32: shaft; 33: the first gears; 34: the second lower roll wheels; 35: the second gears; Torsion spring after 36: the second.
Detailed description of the invention
For making the object of the utility model embodiment, technical scheme and advantage clearly, below in conjunction with the accompanying drawing in the utility model embodiment, technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is a part of embodiment of the present utility model, instead of whole embodiments.Based on the embodiment in the utility model, the every other embodiment that those of ordinary skill in the art obtain under the prerequisite not making creative work, all belongs to the scope of the utility model protection.
See figures.1.and.2, the stacking embodiment sending ticket device for flexible thin card ticket paper of the present utility model, it comprises supporting mechanism and transmitting mechanism, and transmitting mechanism is supported on supporting mechanism.Wherein, transmitting mechanism comprises lower transfer assembly and upper transfer assembly, and upper transfer assembly is above lower transfer assembly and can move between high-order and low level relative to lower transfer assembly.
Particularly, under lower transfer assembly comprises, lead ticket plate 8 and at least two lower roll wheels, at least two lower roll wheels along ticket paper direction of transfer, be supported on down successively and lead on ticket plate 8 rotationally.
Upper transfer assembly comprises upper backup pad 26 and at least two upper roll wheels, and at least two upper roll wheels are supported on upper backup pad 26 correspondingly, rotationally with at least two lower roll wheels.
When upper transfer assembly is in a high position, at least two upper roll wheels depart from at least two lower roll wheels, and now, flexible thin card ticket paper ticket module processed can sent is deposited in down the top of leading ticket plate 8.Can understand, the high position of upper transfer assembly is that upper roll wheel and lower roll wheel depart from the flexible thin card ticket pile that ticket module processed is sent and amass the position that can be deposited in down the top of leading ticket plate 8.
When upper transfer assembly is in low level, upper roll wheel and lower roll wheel common rotation, to transmit ticket paper, now rotate by often pair of corresponding upper roll wheel and lower roll wheel pressing and transmit flexible thin card ticket paper.Further, lead ticket plate 8 and upper backup pad 26 under and with ticket paper Multi-contact, the spacing of above-below direction is formed to ticket paper respectively.Can understand, upper transfer assembly when low level, under the vertical distance led between ticket plate 8 and upper backup pad 26 be less than the vertical distance of vertex to nadir of stacking bending ticket paper, with realize down leading ticket plate 8 and upper backup pad 26 all with ticket paper Multi-contact.Can understand, the flexible thin card ticket paper sent by ticket module processed has certain sinuousness, in transport process, and the sinuousness of spacing that can reduce any amount of deflection, the bending flexible thin card ticket paper of above-below direction.
Thus, the stacking ticket device that send for flexible thin card ticket paper of the present embodiment is to the flexible thin card ticket paper strong adaptability of different amount of deflection.
Particularly, the stacking ticket device that send for flexible thin card ticket paper of the present embodiment is mainly used in internet automatic ticketing, automatically gets tickets in device end, be positioned at the downstream of ticket module processed, after ticket module ticket processed completes, ticket paper being deposited in this stackingly send in ticket device, rotated by the pressing of upper and lower running roller, be steadily sent to rapidly in the ticket outlet of selling and obtaining ticket in self-service manner equipment.This is stacking send that ticket device solves automatic selling, ticket taking machine is stacking send in ticket process, due to the card ticket problem that different amount of deflection ticket causes.
More specifically, see figures.1.and.2, supporting mechanism comprises left side board 1, right side board 5 and multiple pillar stiffener 4, left side board 1 and the opposing parallel setting of right side board 5, the two ends of pillar stiffener 4 are connected to left side board 1 and right side board 5 to support the two, and multiple pillar stiffener 4 is parallel to each other.Preferably, pillar stiffener 4 is connected by screw with left side board 1 and right side board 5.Upper backup pad 26 and the upper roll wheel on it, under lead ticket plate 8 and the lower roll wheel on it is all arranged between left side board 1 and right side board 5, and upper backup pad 26 is supported on left side board 1 and right side board 5 movably, under lead ticket plate 8 and be fixedly supported on left side board 1 and right side board 5, " fixed pedestal " herein represent apply this stacking send ticket device time relative under to lead ticket plate 8 static.
Further, there are in transmitting mechanism three upper roll wheels and three lower roll wheels, three lower roll wheels direction of transfer be respectively along ticket paper sets gradually the first lower roll wheel 9, second lower roll wheel 34 and the 3rd lower roll wheel 30, three upper roll wheels are respectively and the first lower roll wheel 9, second lower roll wheel 34, the 3rd lower roll wheel 30 first upper roll wheel 23, second upper roll wheel 25 and the 3rd upper roll wheel 28 one to one.Upper backup pad 26 is the U-shaped plate be made up of two relative armstands and a base plate, between first upper roll wheel 23, second upper roll wheel 25 and all rotating two walls being supported on this U-board of the 3rd upper roll wheel 28, and all through the respective openings on base plate, to pass opening and lower roll wheel pressing.
Further, upper backup pad 26 is supported on supporting mechanism rotationally, and upper transfer assembly is rotation relative to the motion of lower transfer assembly between a high position and low level.
The stacking ticket device that send for flexible thin card ticket paper of the present embodiment also comprises the first driver train, and this first driver train drives upper backup pad 26 between a high position and low level, rotate to realize transfer assembly and rotates between a high position and low level.
Specific to the present embodiment, the first driver train comprises the first propulsion source 11 and cam link mechanism.First propulsion source 11 provides rotational kinetic energy.Cam link mechanism is connected between the first propulsion source 11 and upper backup pad 26, the rotational kinetic energy of the first propulsion source 11 is driven to upper backup pad 26 in the mode driving upper backup pad 26 and rotate between high-order and low level, and namely the rotational kinetic energy of the first propulsion source 11 is passed to upper backup pad 26 by the first driver train and is converted into the rotation of upper backup pad 26 between high-order and low level.
Particularly, in the present embodiment, cam link mechanism comprises cam 12, first rotary connection bar 2 and the first rotary connection post 3.
Cam 12 is connected to the first propulsion source 11 in mode rotational kinetic energy being converted into own rotation, and namely cam 12 is connected with the first propulsion source 11, and the rotational kinetic energy of the first propulsion source 11 is converted into the own rotation of cam 12.Specific to the present embodiment, the first propulsion source 11 is stepping motor, and stepping motor is arranged between left side board 1 and right side board 5, and rotation spreads out of through left side board 1 by its output shaft.Cam 12 is positioned at the outside of left side board 1, is connected to this output shaft.
First rotary connection bar 2 is connected between cam 12 and the first rotary connection post 3 in the mode of the translation rotation of cam 12 being converted into the first rotary connection post 3, namely the rotation of cam 12 self drives the first rotary connection bar 2 to move, and the motion of the first rotary connection bar 2 drives the first rotary connection post 3 translation.Specific in the present embodiment, the first rotary connection bar 2 is positioned at the outside of left side board 1, and its one end is connected with cam 12, and the other end is connected with one end of the first rotary connection post 3.
Further, the first rotary connection post 3 is connected to upper backup pad 26 in the mode driving upper backup pad 26 and rotate between high-order and low level, and namely the translation of the first rotary connection post 3 drives upper backup pad 26 to rotate between high-order and low level.Specific to the present embodiment, the first rotary connection post 3 enters into left side board 1 and right side board 5 through the chute on left side board 1, is connected with the upper backup pad 26 between left side board 1 and right side board 5, and chute defines the motion path of the first rotary connection post 3.Further, upper backup pad 26 is supported on left side board 1 and right side board 5 by axle is rotating, makes the first rotary connection post 3 that upper backup pad 26 can be driven to rotate.
To sum up, stepping motor as the first propulsion source 11 is rotated by output shaft band moving cam 12, cam 12 drives the first rotary connection bar 2 to move, first rotary connection bar 2 drives the first rotary connection post 3 to do translation along chute direction, first rotary connection post 3 drives upper backup pad 26 to rotate, thus, achieve the first driver train and drive the rotation of upper backup pad 26 between a high position and low level.When upper transfer assembly is positioned at a high position, upper backup pad and under lead and define wide-angle between ticket plate and keep in ticket storehouse.
Certainly, the utility model is not limited to this, and in other alternative-embodiments, those skilled in the art can adopt other known physical constructions to realize the rotation of upper backup pad 26 between a high position and low level.
Continue to see figures.1.and.2, the stacking ticket device that send for flexible thin card ticket paper of the present embodiment also comprises the second driver train, and this second driver train drives at least one running roller in often pair of corresponding upper roll wheel and lower roll wheel to rotate.Specifically, in the present embodiment, the second driver train comprises the second propulsion source 14 and the synchronous belt drive mechanism providing rotational kinetic energy.Synchronous belt drive mechanism is connected between the second propulsion source 14 and the running roller rotated in the mode of rotation rotational kinetic energy being converted into a running roller in often pair of corresponding upper roll wheel and lower roll wheel, in other words, synchronous belt drive mechanism to be connected in the second propulsion source 14 and often pair of corresponding upper roll wheel and lower roll wheel between a running roller, the rotational kinetic energy of the second propulsion source 14 is converted into the rotation of a running roller in often pair of corresponding upper roll wheel and lower roll wheel.Can understand, often pair of corresponding upper roll wheel is driving wheel with the running roller be connected with synchronous belt drive mechanism in lower roll wheel, and running roller is corresponding thereto flower wheel.Preferably, driving wheel is rubber roll wheel, and the two ends of the wheel shaft of flower wheel are respectively equipped with torsion spring, and flower wheel passes through torsion and the driving wheel pressing of torsion spring.Wherein, rubber roll transmission solves the problem that other materials cause module life short.Certainly, the utility model is not limited to this, in other embodiments, arbitrary portion or whole running roller can be selected to be rubber roll wheel.
Specifically, synchronous belt drive mechanism comprises the first synchronous pulley 13, second synchronous pulley 15, the 3rd synchronous pulley 20, the 4th synchronous pulley 29, the 5th synchronous pulley 22, first Timing Belt 16, second Timing Belt 27, shaft 32, first gear 33, second gear 35.
Wherein, the first synchronous pulley 13 is connected to the second propulsion source 14 in mode rotational kinetic energy being converted into himself rotation.Specific to the present embodiment, second propulsion source 14 is stepping motor, stepping motor is arranged on left side board 1, be positioned at the side near the 3rd lower roll wheel 30 of the stepping motor as the first propulsion source 11, and lead immediately below ticket plate 8 under being positioned at, first synchronous pulley 13 is arranged on the outside of left side board 1, and the output shaft of stepping motor is connected with the first synchronous pulley 13, and the rotation of output shaft drives the first synchronous pulley 13 to rotate.
First Timing Belt 16 with the rotation of the first synchronous pulley 13 is converted into second and the 3rd the mode of rotation of synchronous pulley be connected between first, second, and third synchronous pulley.Specific to the present embodiment, second synchronous pulley 15 and the 3rd synchronous pulley 20 are arranged on the outside of left side board 1 all rotationally, first Timing Belt 16 is centered around on the first synchronous pulley 13, second synchronous pulley 15 and the 3rd synchronous pulley 20, first synchronous pulley 13 rotates drive first Timing Belt and rotates, and then drives the second synchronous pulley 15 and the 3rd synchronous pulley 20 to rotate.
Further, the second synchronous pulley 15 is connected with shaft 32 in the mode driving shaft 32 and rotate.Specific to the present embodiment, shaft 32 is arranged on the side near the first lower roll wheel 9 of the second lower roll wheel 34, one end of shaft 32 is inserted in the axis hole of the second synchronous pulley 15, or one end of shaft 32 is connected with the rotating shaft of the first synchronous pulley 13, the rotation of the second synchronous pulley 15 drives shaft 32 to rotate thus.
Further, shaft 32 is connected with the first gear 33 to drive the mode of the first gear 33 rotation, specific to the present embodiment, the other end of shaft 32 is inserted in the axis hole of the first gear 33 be arranged in outside right side board 5, as the rotating shaft of the first gear 33, thus, shaft 32 rotates drive first gear 33 and rotates.Can understand, the rotation of the first synchronous pulley 13 be positioned at outside left side board 1 is passed on the first gear 33 of being positioned at outside right side board 5 by shaft 32.
Further, the first gear 33 engages with the second gear 35 to drive the mode of the second gear 35 rotation.Specific to the present embodiment, the first gear 33 and the directly external toothing of the second gear 35.Thus, the first gear 33 drives the second gear 35 to rotate.Certainly be not limited to this, according to concrete structure needs, the first gear 33 with the second gear 35 internal messing or can also be engaged by intermediate gear indirectly.
Further, the second gear 35 is connected with the second lower roll wheel 34 to drive the mode of the second lower roll wheel 34 rotation.Specific to the present embodiment, one end of the rotating shaft of the second lower roll wheel 34 is stretched out the axis hole of insertion second gear 35 from right side board 5, and thus, the rotation of the second gear 35 drives the second lower roll wheel 34 to rotate.
Further, when upper transfer assembly is positioned at low level, the second lower roll wheel 34 is to drive mode and second upper roll wheel 25 pressing of the second upper roll wheel 25 rotation.Specific to the present embodiment, the second lower roll wheel 34 is driving wheel, and the second upper roll wheel 25 is flower wheel, and the two ends of the wheel shaft of the second upper roll wheel 25 are supported on upper backup pad 26 respectively by the first middle torsion spring 24 and the second middle torsion spring 6.
Further, the 3rd synchronous pulley 20 is connected with the 3rd upper roll wheel 28 to drive the mode of the 3rd upper roll wheel 28 rotation.Specific in the present embodiment, the axis hole of the 3rd synchronous pulley 20 is inserted in one end of the wheel shaft of the 3rd upper roll wheel 28 through strut member and left side board 1, and on left side board 1 and right side board 5, be provided with the chute that the wheel shaft for the 3rd upper roll wheel 28 slides, when upper transfer assembly moves between a high position and low level, slide in the two ends of the wheel shaft of the 3rd upper roll wheel 28 in chute.
Further, when upper transfer assembly is positioned at low level, 3rd upper roll wheel 28 is to drive mode and the 3rd lower roll wheel 30 pressing of the 3rd lower roll wheel 30 rotation, specific to the present embodiment, 3rd upper roll wheel 28 is driving wheel, 3rd lower roll wheel 30 is flower wheel, and the wheel shaft two ends of the 3rd upper roll wheel 28 are supported on left side board 1 and right side board 5 respectively by torsion spring 31 before torsion spring before first 18 and second.
Further, the 3rd upper roll wheel 28 is connected with the 4th synchronous pulley 29 to drive the mode of the 4th synchronous pulley 29 rotation.Specific in the present embodiment, the 4th synchronous pulley 29 is set on the wheel shaft of the 3rd upper roll wheel 28, and thus, the rotation of the 3rd upper roll wheel 28 drives the 4th synchronous pulley 29 to rotate.
Further, 4th synchronous pulley 29 is connected with the second Timing Belt 27 to drive the mode of the second Timing Belt 27 rotation, second Timing Belt 27 is connected with the 5th synchronous pulley 22 to drive the mode of the 5th synchronous pulley 22 rotation, and the 5th synchronous pulley 22 is connected with the first upper roll wheel 23 to drive the mode of the first upper roll wheel 23 rotation.Specific in the present embodiment, the two ends of the wheel shaft of the first upper roll wheel 23 are rotating to be supported on upper backup pad 26,5th synchronous pulley 22 is set on the wheel shaft of the first upper roll wheel 23, and the second Timing Belt 27 is around the 4th synchronous pulley 29 and the 5th synchronous pulley 22 transferring power between.Thus, the rotation of the 4th synchronous pulley 29 drives the second Timing Belt 27 to rotate, and the second Timing Belt 27 drives the 5th synchronous pulley 22 to rotate, and the 5th synchronous pulley 22 drives the first upper roll wheel 23 to rotate.
Further, when upper transfer assembly is positioned at low level, the first upper roll wheel 23 is to drive mode and first lower roll wheel 9 pressing of the first lower roll wheel 9 rotation.Specific to the present embodiment, the first upper roll wheel 23 is driving wheel, and the first lower roll wheel 9 is flower wheel, and the wheel shaft two ends of the first lower roll wheel 9 are supported on left side board 1 and right side board 5 respectively by the first rear torsion spring 10 and the second rear torsion spring 36.
To sum up, the driving process that second driver train drive roller wheel is rotated is: the stepping motor as the second propulsion source 14 drives the first synchronous pulley 13 to rotate, first synchronous pulley 13 drives the first Timing Belt 16 to rotate, the first Timing Belt 16 drive second and the 3rd synchronous pulley 20 rotate.Second synchronous pulley 15 drives shaft 32 to rotate, shaft 32 drives the first gear 33 to rotate, first gear 33 drives the second gear 35 to rotate, and the second gear 35 drives the second lower roll wheel 34 to rotate, and the second lower roll wheel 34 drives the second upper roll wheel 25 to rotate when upper transfer assembly is positioned at low level.3rd synchronous pulley 20 drives the 3rd upper roll wheel 28 to rotate, and the 3rd upper roll wheel 28 is when upper transfer assembly is positioned at low level and the 3rd lower roll wheel 30 pressing.3rd upper roll wheel 28 drives the 4th synchronous pulley 29 to rotate, 4th synchronous pulley 29 drives the second Timing Belt 27 to rotate, second Timing Belt 27 drives the 5th synchronous pulley 22 to rotate, 5th synchronous pulley 22 drives the first upper roll wheel 23 to rotate, and the first upper roll wheel 23 is when upper transfer assembly is positioned at low level and the first lower roll wheel 9 pressing.In the process of conveying ticket paper, the first upper roll wheel 23 and the first lower roll wheel 9, second upper roll wheel 25 and the second lower roll wheel 34, between the 3rd upper roll wheel 28 and the 3rd lower roll wheel 30, transmit the ticket paper between them by pressure pressing.
Continue to see figures.1.and.2, the stacking connecting rod mechanism sending the transmitting mechanism in ticket device also to comprise gear ticket plate 17 and be connected between gear ticket plate 17 and upper backup pad 26 for flexible thin card ticket paper of the present embodiment.Move to low level with upper transfer assembly from a high position, connecting rod mechanism drive gear ticket plate 17 from the gear ticket position protruding from the upper surface of leading ticket plate 8 move to lower than under lead the position of stepping down of the upper surface of ticket plate 8.With upper transfer assembly from lower position to a high position, connecting rod mechanism drives gear ticket plate 17 to move to gear ticket position from position of stepping down.
Specific in the present embodiment, with reference to Fig. 3, gear ticket plate 17 is arranged between the 3rd lower roll wheel 30 and shaft 32.Aforementioned link mechanism comprises the second rotary connection post 21 and the second rotary connection bar 19, and upper backup pad 26, second rotary connection post 21, second rotary connection bar 19 is connected successively with gear ticket plate 17.
More specifically, in the present embodiment, right side board 5 corresponds to the second rotary connection post 21 and keep off ticket plate 17 and be respectively arranged with the chute run through.One end of second rotary connection post 21 is connected to upper backup pad 26, and the other end stretches out in the outside of right side board 5 through chute, and this end is connected with one end of the second rotary connection bar 19.Second rotary connection bar 19 is positioned at the outside of right side board 5 completely, and its other end is connected with one end of gear ticket plate 17, keeps off ticket plate 17 and to enter into left side board 1 and right side board 5 and upwards bending through the chute on right side board 5.Under lead through hole ticket plate 8 being provided with and passing from bottom to top for gear ticket plate 17.When upper transfer assembly is positioned at a high position, gear ticket plate 17 is positioned at through this through hole the gear ticket position protruding from down the upper surface of leading ticket plate 8.When upper transfer assembly is positioned at low level, gear ticket plate 17 not through this through hole, be positioned at lower than under lead the position of stepping down of the upper surface of ticket plate 8.To sum up, as when on the driving stepper motor of the first propulsion source 11, transfer assembly is upwards raised up to a high position from low level, gear ticket plate 17 is lifted to gear ticket position by connecting rod mechanism, and the ticket paper sent from ticket module processed is deposited in the top of leading ticket plate 8, is deposited in the rear portion of gear ticket plate 17.As when on the driving stepper motor of the first propulsion source 11, transfer assembly is pressure bonded to low level downwards by a high position, gear ticket plate 17 is gone to level attitude by connecting rod mechanism, and gear ticket plate 17 is depressed into low level.Now, 3rd lower roll wheel 30 passes through torsion and the 3rd upper roll wheel 28 pressing of torsion spring 31 before torsion spring 18, second before first, second upper roll wheel 25 passes through torsion and second lower roll wheel 34 pressing of the middle torsion spring 6 of the first middle torsion spring 24, second, first lower roll wheel 9, by torsion spring 36 and the first upper roll wheel 23 pressing after the first rear torsion spring 10, second, rotates the ticket paper transmitting and pile up by pressing.Stepping motor 2 as the second propulsion source 14 rotates forward the transmission realizing ticket paper, and reversion realizes the recovery of ticket paper.
Between left side board 1 and right side board 5, also arrange static bruss 7, this static bruss 7 is positioned at the outside of transfer assembly and lower transfer assembly, and is positioned at the upstream of ticket paper direction of transfer.This static bruss 7 can be connected with ticket producer structure, removes the electrostatic produced in ticket process processed.
In general, the stacking ticket apparatus structure that send for flexible thin card ticket paper of the present embodiment is simple, valid ballot paper steadily can be sent in the ticket outlet of internet selling and obtaining ticket in self-service manner equipment rapidly, invalid ticket and invalidated ticket are recovered to the ticket storehouse of selling and obtaining ticket in self-service manner equipment, improve efficiency of drawing a bill, reduce selling and obtaining ticket in self-service manner equipment card ticket phenomenon, temperature humidity strong adaptability, life-span are long.
Last it is noted that above embodiment is only in order to illustrate the technical solution of the utility model, be not intended to limit; Although be described in detail the utility model with reference to previous embodiment, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein portion of techniques feature; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the spirit and scope of each embodiment technical scheme of the utility model.

Claims (10)

1. send a ticket device for the stacking of flexible thin card ticket paper, comprise supporting mechanism and be supported on the transmitting mechanism on described supporting mechanism, it is characterized in that,
Described transmitting mechanism comprises lower transfer assembly and above described lower transfer assembly and the upper transfer assembly that can move between high-order and low level relative to described lower transfer assembly;
Wherein, under described lower transfer assembly comprises, lead ticket plate (8) and at least two lower roll wheels, described at least two lower roll wheels along ticket paper direction of transfer, be rotationally supported on successively described under lead on ticket plate (8);
Wherein, described upper transfer assembly comprises upper backup pad (26) and at least two upper roll wheels, and described at least two upper roll wheels and described at least two lower roll wheels are supported on described upper backup pad (26) correspondingly, rotationally;
Wherein, on described transfer assembly be in described high-order time, described upper roll wheel and described lower roll wheel depart from, when transfer assembly is in described low level on described, described upper roll wheel and described lower roll wheel common rotation are to transmit described ticket paper, further, leading ticket plate (8) and described upper backup pad (26) under described with described ticket paper Multi-contact forms the spacing of above-below direction to described ticket paper.
2. according to claim 1ly send ticket device for the stacking of flexible thin card ticket paper, it is characterized in that,
Described upper backup pad (26) is supported on described supporting mechanism rotationally, and described upper transfer assembly is rotation relative to the motion of described lower transfer assembly between a high position and low level.
3. according to claim 2ly send ticket device for the stacking of flexible thin card ticket paper, it is characterized in that, also comprise:
Drive described upper backup pad (26) rotate to realize between a described high position and described low level described on the first driver train of rotating between a described high position and described low level of transfer assembly;
Wherein, described first driver train comprises the first propulsion source (11) providing rotational kinetic energy and the cam link mechanism be connected between described first propulsion source (11) and described upper backup pad (26), and the rotational kinetic energy of described first propulsion source (11) is driven to described upper backup pad (26) in the mode driving described upper backup pad (26) and rotate between a described high position and described low level by described cam link mechanism.
4. according to claim 3ly send ticket device for the stacking of flexible thin card ticket paper, it is characterized in that,
Described cam link mechanism comprises cam (12), the first rotary connection bar (2) and the first rotary connection post (3);
Wherein, described cam (12) is connected to described first propulsion source (11) in the mode described rotational kinetic energy being converted into own rotation;
Described first rotary connection bar (2) is connected between described cam (12) and described first rotary connection post (3) in the mode of the translation rotation of described cam (12) being converted into described first rotary connection post (3);
Described first rotary connection post (3) is connected to described upper backup pad (26) in the mode driving described upper backup pad (26) and rotate between a described high position and described low level.
5. according to any one of claim 1-4, send ticket device for the stacking of flexible thin card ticket paper, it is characterized in that, also comprise:
Drive the second driver train that at least one running roller in often pair of corresponding described upper roll wheel and described lower roll wheel rotates;
Wherein, described second driver train comprises the second propulsion source (14) and synchronous belt drive mechanism that provide rotational kinetic energy, and described synchronous belt drive mechanism is connected between described second propulsion source (14) and the running roller of described rotation in the mode of the rotation described rotational kinetic energy being converted into a running roller in often pair of corresponding upper roll wheel and lower roll wheel.
6. according to claim 5ly send ticket device for the stacking of flexible thin card ticket paper, it is characterized in that,
Described at least two lower roll wheels are three lower roll wheels, and the direction of transfer be respectively along ticket paper sets gradually the first lower roll wheel (9), the second lower roll wheel (34) and the 3rd lower roll wheel (30);
Described at least two upper roll wheels are three upper roll wheels, are respectively and described first lower roll wheel (9), the second lower roll wheel (34), the 3rd lower roll wheel (30) the first upper roll wheel (23), the second upper roll wheel (25) and the 3rd upper roll wheel (28) one to one;
Described synchronous belt drive mechanism comprises the first synchronous pulley (13), the second synchronous pulley (15), the 3rd synchronous pulley (20), the 4th synchronous pulley (29), the 5th synchronous pulley (22), the first Timing Belt (16), the second Timing Belt (27), shaft (32), the first gear (33), the second gear (35);
Wherein, described first synchronous pulley (13) is connected with it in the mode rotational kinetic energy of described second propulsion source (14) being converted into himself rotation, described first Timing Belt (16) with the rotation of described first synchronous pulley (13) is converted into described second and the 3rd the mode of rotation of synchronous pulley be connected to described first, second and the 3rd between synchronous pulley, described second synchronous pulley (15) is connected with it in the mode driving described shaft (32) and rotate, described shaft (32) is connected with it in the mode driving described first gear (33) and rotate, described first gear (33) is engaged with it in the mode driving described second gear (35) and rotate, described second gear (35) is connected with it in the mode driving described second lower roll wheel (34) and rotate, described 3rd synchronous pulley (20) is connected with it in the mode driving described 3rd upper roll wheel (28) and rotate, described 3rd upper roll wheel (28) is connected with it in the mode driving the 4th synchronous pulley (29) and rotate, described 4th synchronous pulley (29) is connected with it in the mode driving described second Timing Belt (27) and rotate, described second Timing Belt (27) is connected with it in the mode driving described 5th synchronous pulley (22) and rotate, described 5th synchronous pulley (22) is connected with it in the mode driving described first upper roll wheel (23) and rotate,
When described upper transfer assembly is positioned at described low level, described first upper roll wheel (23) is with the mode driving described first lower roll wheel (9) and rotate and its pressing, described second lower roll wheel (34) is with the mode driving described second upper roll wheel (25) and rotate and its pressing, and described 3rd upper roll wheel (28) is with the mode driving described 3rd lower roll wheel (30) and rotate and its pressing.
7. according to claim 5ly send ticket device for the stacking of flexible thin card ticket paper, it is characterized in that,
Driving wheel in often pair of corresponding described upper roll wheel and described lower roll wheel is rubber roll wheel, and the two ends of the wheel shaft of flower wheel are provided with torsion spring, and when transfer assembly is positioned at described low level on described, described flower wheel is by the torsion of described torsion spring and described driving wheel pressing.
8. according to any one of claim 1-4, send ticket device for the stacking of flexible thin card ticket paper, it is characterized in that,
In often pair of corresponding described upper roll wheel and described lower roll wheel, at least one running roller is rubber roll wheel.
9. according to claim 1ly send ticket device for the stacking of flexible thin card ticket paper, it is characterized in that,
Described transmitting mechanism also comprises gear ticket plate (17), is connected to connecting rod mechanism between described gear ticket plate (17) and described upper backup pad (26);
Move to described low level with described upper transfer assembly from a described high position, described connecting rod mechanism drive described gear ticket plate (17) from protrude from described lead the upper surface of ticket plate (8) gear ticket position move to position of stepping down lower than leading the upper surface of ticket plate (8) under described;
With described upper transfer assembly from described lower position to a described high position, described connecting rod mechanism drives described gear ticket plate (17) to move to described gear ticket position from described position of stepping down.
10. according to claim 9ly send ticket device for the stacking of flexible thin card ticket paper, it is characterized in that,
Described connecting rod mechanism comprises the second rotary connection post (21) and the second rotary connection bar (19), and described upper backup pad (26), described second rotary connection post (21), described second rotary connection bar (19) are connected successively with described gear ticket plate (17).
CN201520834570.0U 2015-10-26 2015-10-26 A pile up and send ticket device that is used for flexible approaching to block ticket paper Active CN205204429U (en)

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CN201520834570.0U CN205204429U (en) 2015-10-26 2015-10-26 A pile up and send ticket device that is used for flexible approaching to block ticket paper

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109448223A (en) * 2019-01-11 2019-03-08 上海古鳌电子科技股份有限公司 A kind of the returned ticket channel design and its working method of billing machine

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109448223A (en) * 2019-01-11 2019-03-08 上海古鳌电子科技股份有限公司 A kind of the returned ticket channel design and its working method of billing machine

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