CN101800832A

CN101800832A - Conveyor and recording medium processor

Info

Publication number: CN101800832A
Application number: CN200910005656A
Authority: CN
Inventors: 黄明东; 高涛; 王国强; 韩智华
Original assignee: Shandong New Beiyang Information Technology Co Ltd
Current assignee: Shandong New Beiyang Information Technology Co Ltd
Priority date: 2009-02-10
Filing date: 2009-02-10
Publication date: 2010-08-11
Also published as: WO2010091631A1

Abstract

The invention discloses a conveyor and a recording medium processor. The conveyor comprises a main frame, input rollers and output rollers, wherein the input rollers and the output rollers are installed on the main frame; the input rollers comprise input driving rollers and input driven rollers; the output rollers comprise output driving rollers, output driven rollers, a driving pendulum rod, a driven pendulum rod and an elastic component; the driving pendulum rod and the driven pendulum rod are respectively hinged with the main frame; when rotating, the driving pendulum rod drives the driven pendulum rod to synchronously rotate in the reverse direction; one end of the elastic component is fixed on the main frame; and the other end of the elastic component is connected with the driving pendulum rod and the driven pendulum rod, and respectively applies pretightening forces to the input driven rollers and the output driven rollers through the driving pendulum rod and the driven pendulum rod. The embodiment of the invention ensures the smooth and steady motion of the recording medium when being processed.

Description

A kind of conveying device and recording medium treatment device

Technical field

The present invention relates to mechanical field, particularly relate to a kind of conveying device and recording medium treatment device.

Background technology

Recording medium treatment device can be divided into scanning means, printing equipment, medium collection device etc. according to apparatus function.Their common feature is to utilize the conveying device conveying recording medium, thereby finishes works of treatment such as scanning, printing, collection.

Wherein, be example with the scanning means, scanning means is to obtain image by the imageing sensor formation relative motion of connecting gear drive sweep object and fixed-site as the core component of scanner.See also Fig. 1, Fig. 1 is the transport conveyor constructions schematic diagram in the scanning means in the prior art.This conveying device comprises: delivery unit and elastomeric element 500.Wherein, delivery unit comprises input roller 610 and outlet roller 620, be respectively applied for the input and output of sweep object P, input roller 610 comprises first driven voller 611 and first drive roll 612, outlet roller 620 comprises second driven voller 621 and second drive roll 622, the drive unit (not shown) drives first drive roll and second drive roll rotates synchronously, and under the cooperation of first driven voller and second driven voller, carry sweep object, described first driven voller and second driven voller move under the qualification of first installing hole 70 and second installing hole 71 respectively; Elastomeric element is arranged on first driven voller and second driven voller, be used for applying certain pretightning force to first driven voller and second driven voller, guarantee to have enough frictional force between sweep object and input roller and the outlet roller, in case sweep object skids between input roller and outlet roller.

But, the researcher finds under study for action, common sweep object need overcome the second driven voller pressure and just can enter outlet roller, when scanning means of the prior art scans business card or identity card equal thickness and the bigger card card class sweep object of hardness, under input roller promotes, for lifting second driven voller in the outlet roller, sweep object can clash into second driven voller, and cause that sweep object vibrates, cause the surface of sweep object not combine closely with image acquisition unit, the image that finally causes getting access to produces band.Equally, in recording medium treatment devices such as printing equipment and medium collection device, also have similar situation and occur.

Therefore, those skilled in the art press for a technical problem of solution and are: how to guarantee recording medium even running in processed process.

Summary of the invention

The embodiment of the invention provides a kind of conveying device, to guarantee recording medium easy motion in processed process.

The embodiment of the invention discloses a kind of conveying device, comprise: main frame and be installed in input roller and outlet roller on the main frame, described input roller comprises input drive roll and input driven voller, described outlet roller comprises output drive roll and output driven voller, also comprise main fork, from fork and elastomeric element, described main fork and hinged with described main frame respectively from fork, drive was described when described main fork rotated rotates from the fork synchronous backward; One end of described elastomeric element is fixed on the main frame, the other end of described elastomeric element and described main fork be connected from fork, apply pretightning force to input driven voller and output driven voller respectively by described main fork with from fork.

Preferably, described main fork comprises first swing arm, second swing arm and first pivot between described first swing arm and second swing arm, describedly comprise the 3rd swing arm from swing arm, the 4th swing arm and second pivot between described the 3rd swing arm and the 4th swing arm, described second swing arm is connected with described the 4th swing arm, described first swing arm is connected with described input driven voller, described the 3rd swing arm is connected with described output driven voller, described main fork and hinged by described first pivot and second pivot and main frame respectively from fork, when described main fork during, describedly rotate around the described second pivot synchronous backward from fork around the rotation of described first pivot.

Preferably, described second swing arm is connected with the 4th swing arm and is specially: in the two one of described second swing arm and the 4th swing arm is provided with first slotted hole, and another in the two is provided with lead, and described lead inserts in described first slotted hole.

Preferably, described first swing arm is connected with the input driven voller, the 3rd swing arm is connected with the output driven voller and comprises: described first swing arm is provided with second slotted hole, the roll shaft of described input driven voller inserts in described second slotted hole, described the 3rd swing arm is provided with the 3rd slotted hole, and the roll shaft of described output driven voller inserts in described the 3rd slotted hole.

Preferably, described first swing arm is connected with the input driven voller, and the 3rd swing arm is connected with the output driven voller and comprises: described first swing arm is overlapped on the described input driven voller, and described the 3rd swing arm is overlapped on the described output driven voller.

Preferably, drive the angle that described angle from the rotation of fork synchronous backward and described main fork rotate during described main fork rotation after, first swing arm of described main fork is identical with the described height that lifts from the 3rd swing arm of fork.

Preferably, described elastomeric element is specially spring or shell fragment.

The embodiment of the invention also discloses a kind of recording medium treatment device, comprise conveying device.

As can be seen from the above-described embodiment, drive from the synchronous opposite spin of fork by main fork rotation, thereby when recording medium inserts between input drive roll and the input driven voller, cause the clockwise motion of main fork, the clockwise motion of main fork drives from putting counterclockwise motion, overcome the pretightning force effect of elastomeric element, thereby reduce the transport resistance of recording medium in transfer passage, prevent the shake that recording medium causes with the outlet roller collision in transmission course, guarantee recording medium even running in transfer passage.

Description of drawings

Fig. 1 is the transport conveyor constructions schematic diagram of a kind of scanning means in the prior art;

Fig. 2 is the structural representation of a kind of conveying device of first embodiment of the invention announcement;

Sweep object was after entering input roller and enter main fork before the outlet roller and from the structural representation of fork when Fig. 3 was applied to scanning means for the conveying device in the first embodiment of the invention;

Sweep object main fork and from the structural representation of fork after entering outlet roller when Fig. 4 is applied to scanning means for the conveying device in the first embodiment of the invention;

Fig. 5 is the geometry figure of Fig. 2 after simplifying;

Fig. 6 is the structural representation of a kind of conveying device of second embodiment of the invention announcement;

Sweep object master's fork and from the structural representation of fork after entering input roller and when entering before outlet roller when Fig. 7 is applied to scanning means for the conveying device in the second embodiment of the invention;

Sweep object main fork and from the structural representation of fork after entering input roller when Fig. 8 is applied to scanning means for the conveying device in the embodiment of the invention two.

Embodiment

For above-mentioned purpose of the present invention, feature and advantage can be become apparent more, the embodiment of the invention is described in detail below in conjunction with accompanying drawing.

Embodiment one

With the scanning means is example, sees also Fig. 2, and Fig. 2 is the structural representation of a kind of conveying device of first embodiment of the invention announcement.The function of conveying device is described below in conjunction with structure, annexation and the operation principle of conveying device.Described conveying device comprises the main frame (not shown), be installed in input roller on the main frame and outlet roller, main fork, from fork and elastomeric element, wherein,

Described input roller comprises input drive roll 11 and input driven voller 10, and described outlet roller comprises output drive roll 21 and output driven voller 20.

Described main fork comprises first swing arm 401, second swing arm 402 and first pivot 42 between described first swing arm 401 and second swing arm 402, describedly comprise the 3rd swing arm 411 from fork, the 4th swing arm 412 and second pivot 43 between described the 3rd swing arm 411 and the 4th swing arm 412, described second swing arm 402 is connected with described the 4th swing arm 412, described first swing arm 401 is connected with described input driven voller 10, described the 3rd swing arm 411 is connected with described output driven voller 20, described main fork and hinged by described first pivot 42 and second pivot 43 respectively with main frame from fork, when described main fork during, describedly rotate around described second pivot, 43 synchronous backwards from fork around described first pivot 42 rotation.

Wherein, second swing arm 402 of described main fork is provided with a slotted hole 40a, and described the 4th swing arm 412 from fork is provided with a lead 41a, and lead 41a inserts among the slotted hole 40a, realizes main fork and from the connection between the fork.

Need to prove, also can be provided with a lead, be provided with a slotted hole, finally realize main fork and from the connection between the fork in the 4th swing arm 412 from fork in second swing arm 402 of described main fork.

First swing arm 401 of described main fork and described input driven voller 10 overlap joints, described the 3rd swing arm 411 and described output driven voller 20 overlap joints from fork 41, like this, when sweep object is inserted between input drive roll 11 and the input driven voller 10, cause that main fork is around 42 rotations of first pivot, when main fork during, prolong the rightabout rotation around second pivot 43 simultaneously from fork 41 around the rotation of first pivot 42.Perhaps, when sweep object is inserted between output drive roll 21 and the output driven voller 20, cause from fork that when from fork during around 43 rotations of second pivot, main fork rotates in opposite direction around first pivot 42 simultaneously around the rotation of second pivot 43.

Described flexible member is used for applying pretightning force to described main fork with from fork, and applies pretightning force to input driven voller 10 and output driven voller 20 respectively again by described main fork with from fork.Described elastomeric element comprises first flexible member 51 and second flexible member 52, one end of described first flexible member 51 and second flexible member 52 is separately fixed on the main frame, the other end of described first flexible member 51 and second flexible member 52 respectively with described main fork be connected from fork.Wherein, main fork is rotated counterclockwise trend under the elastic force effect of flexible member 51, an end of first swing arm 401 is pressed on the axial of input driven voller 10 in the main fork, make input driven voller 10 oriented input drive roll 11 movement tendencies, guarantee default certain pressure between two input rollers, simultaneously, from the fork trend that under the elastic force effect of flexible member 52, turns clockwise, one end of the 3rd swing arm 411 is pressed on the axial of output driven voller 20 from fork, make output driven voller 20 oriented output drive roll 21 movement tendencies, guarantee default certain pressure between two outlet rollers.

Need to prove that described elastomeric element is specially spring or shell fragment.

According to the structure and the annexation of above-mentioned conveying device, describe the operation principle of conveying device and main fork below in detail and from the operation principle of fork.Wherein, the operation principle of conveying device is: input roller and outlet roller transmit sweep object in scanning means, wherein, by the input roller input, through imageing sensor, are exported by outlet roller again.See also Fig. 3, sweep object was after entering input roller and enter main fork before the outlet roller and from the structural representation of fork when Fig. 3 was applied to scanning means for the conveying device in the first embodiment of the invention.Wherein, first imageing sensor 31 and second imageing sensor 30 are between input drive roll and output drive roll, can obtain the double-edged image of sweep object once, described first imageing sensor 31 and second imageing sensor 30 are specifically as follows contact-type image sensor CIS or charge coupled device ccd.

As shown in Figure 3, work as sweep object, the identity card that for example has certain degree of hardness and thickness, the pretightning force that overcomes between input driven voller 10 and the input drive roll 11 is inserted into when importing between driven voller 10 and the input drive roll 11, force input driven voller 10 to moving away from input drive roll 11 directions, at this moment, the active force that the end that input driven voller 10 promotes first swing arm 401 in the main fork overcomes flexible member 51 clockwise rotates, owing to main fork and from the interlock between the fork, when being clockwise rotated, winner's fork drives rotating counterclockwise of from fork the 3rd swing arm 411, overcome flexible member 52 and be applied to the pretightning force of exporting on the driven voller 20, and then the pretightning force between output driven voller 20 and output drive roll 21 disappears, at this moment, output driven voller 20 is not subjected to the effect of flexible member 52.

In the time of before sweep object and input roller break away from and enter outlet roller, one end of the 3rd swing arm 411 is in released state with output driven voller 20 axle heads from fork, at this moment, the gravity that sweep object only needs to overcome output driven voller 20 easily inserts between output driven voller 20 and the output drive roll 21, the resistance that transmits reduces greatly, avoided sweep object and of the shake of output driven voller, made sweep object steadily enter input roller, guaranteed quality of scanning because of the bump generation.

See also Fig. 4, sweep object main fork and from the structural representation of fork after entering outlet roller when Fig. 4 is applied to scanning means for the conveying device in the first embodiment of the invention.As shown in Figure 4, after sweep object enters between output driven voller 20 and the output drive roll 21, because the thickness of sweep object, output driven voller 20 and a end 411 from fork are overlapped again, and under the pretightning force effect of flexible member 52, have enough frictional force between sweep object and output driven voller 20 and the output drive roll 21, the assurance sweep object is normally carried.

Need to prove, described after the rotation of fork synchronous backward in order to realize that described main fork drives when rotating, reach the pretightning force effect that can overcome elastomeric element, reduce the transport resistance of recording medium in transmitting passage, guarantee recording medium easy motion in transmitting passage, can make recording medium the optimal effectiveness of skidding in transport process, not occur again, need described first swing arm identical with the described height that lifts from the 3rd swing arm of fork from main fork.One preferred embodiment is: the center of first pivot 42 is equated to the distance between the center of lead 41a with the center of second pivot 43 to the distance between the center of lead 41a, simultaneously, also to satisfy 42 to first swing arms of first pivot and equal 43 to the 3rd swing arms of second pivot and the distance of exporting driven voller 20 axle head tie points with the distance of importing driven voller 10 axle head tie points.

See also Fig. 5, clear in order to express, Fig. 5 is the geometry figure of Fig. 2 after simplifying.A1 is to be that the center of circle, first pivot 42 are the circle of radius to lead 41a's apart from r1 with first pivot 42; A2 is to be that the center of circle, second pivot 43 are the circle of radius to lead 41a's apart from r2 with second pivot 43.The input driven voller d1 that moves vertically upward promotes second swing arm rotation a1 degree of main fork, driving is rotated the a2 degree synchronously from the 4th swing arm of fork, if the arc length of a1 correspondence is L1, the arc length of a2 correspondence is L2, what can be similar to regards L1=L2 as, according to formula a=L/R as can be known, and when L equates, when having only r1 to equal r2, a1 equals a2.In addition, input driven voller and the main fork first swing arm tie point is P1 when establishing initial condition, output driven voller and be P2 from fork the 3rd swing arm tie point; When recording medium inserted the input driven voller, the input driven voller was P1 ' with the main fork first swing arm tie point, output driven voller and be P2 ' from fork the 3rd swing arm tie point.As shown in Figure 5,42,3 of P1, P1 ' constitute a triangle, 43,3 of P2, P2 ' constitute a triangle.Known a1 equals a2, equals d2 if want to satisfy d1, can derive the distance that 42 to P1 distance equals 43 to P2 according to the cosine law.Promptly described after the rotation of fork synchronous backward in order to realize that described main fork drives when rotating, described first swing arm from main fork is identical with the described height that lifts from the 3rd swing arm of fork, the center of first pivot 42 is equated to the distance between the center of lead 41a with the center of second pivot 43 to the distance between the center of lead 41a, simultaneously, also to satisfy 42 to first swing arms of first pivot and equal 43 to the 3rd swing arms of second pivot and the distance of exporting driven voller 20 axle head tie points with the distance of importing driven voller 10 axle head tie points.

Embodiment two

See also Fig. 6, Fig. 6 is the structural representation of a kind of conveying device of second embodiment of the invention announcement.Present embodiment and the foregoing description difference are, first swing arm 401 of main fork is provided with the second slotted hole 40b, the roll shaft 10a of input driven voller 10 inserts among the described second slotted hole 40b, be provided with the 3rd slotted hole 41b from the 3rd swing arm 411 of fork, the roll shaft 20a of output driven voller 20 inserts among described the 3rd slotted hole 41b.Wherein, first imageing sensor 31 and second imageing sensor 30 are between input drive roll and output drive roll, can obtain the double-edged image of sweep object once, described first imageing sensor 31 and second imageing sensor 30 are specifically as follows contact-type image sensor CIS or charge coupled device ccd.

See also Fig. 7, sweep object was after entering input roller and enter main fork before the outlet roller and from the structural representation of fork when Fig. 7 was applied to scanning means for the conveying device in the second embodiment of the invention.As shown in Figure 7, when sweep object is inserted between input drive roll 11 and the input driven voller 10, lifting of input driven voller 10 causes that main fork is around 42 rotations of first pivot, when main fork during around the rotation of first pivot 42, rotate around second pivot 43 in opposite direction simultaneously from fork 41, like this, when sweep object enters outlet roller, because output driven voller 20 has lifted, make the gap of exporting between driven voller 20 and the output drive roll 21 equal the thickness of sweep object substantially, thereby sweep object enters the resistance of the transmission between two rollers to be reduced greatly, sweep object and of the shake of output driven voller have been avoided because of the bump generation, make sweep object steadily enter input roller, guaranteed quality of scanning.

See also Fig. 8, sweep object main fork and from the structural representation of fork after entering outlet roller when Fig. 8 is applied to scanning means for the conveying device in the second embodiment of the invention.As shown in Figure 8, after sweep object enters between output driven voller 20 and the output drive roll 21, because the thickness of sweep object, output driven voller 20 and a end 411 from fork are overlapped again, and under the pretightning force effect of flexible member 52, have enough frictional force between sweep object and output driven voller 20 and the output drive roll 21, the assurance sweep object is normally carried.

By the embodiment of the invention described above as can be seen, drive from the synchronous opposite spin of fork by main fork rotation, thereby when sweep object inserts between input drive roll and the input driven voller, cause the clockwise motion of main fork, the clockwise motion of main fork drives from putting counterclockwise motion, thereby reduce the transport resistance of sweep object in transfer passage, prevent the shake of the sweep object that sweep object causes with the outlet roller collision in transmission course, guarantee sweep object even running in passage, improved quality of scanning.

The center that ought satisfy first pivot 42 especially simultaneously equates to the distance between the center of lead 41a with the center of second pivot 43 to the distance between the center of lead 41a, the distance of 42 to first swing arms of first pivot and input driven voller 10 axle head tie points equal 43 to the 3rd swing arms of second pivot and output driven voller 20 axle head tie points apart from the time, can also prevent further that skidding from appearring in recording medium in transport process.

Need to prove, more than just the application in scanning means is described in detail to conveying device provided by the present invention, but obviously, for relating to other devices that recording medium is carried, as printing equipment, medium collection device etc., conveying device provided by the invention also is suitable for.Used specific embodiment herein principle of the present invention and execution mode are set forth, the explanation of above embodiment just is used for helping to understand method of the present invention and core concept thereof; Simultaneously, for one of ordinary skill in the art, according to thought of the present invention, the part that all can change in specific embodiments and applications, in sum, this description should not be construed as limitation of the present invention.

Claims

1. conveying device, comprise main frame and be installed in input roller and outlet roller on the main frame, described input roller comprises input drive roll and input driven voller, described outlet roller comprises output drive roll and output driven voller, it is characterized in that, also comprise main fork, from fork and elastomeric element, described main fork and hinged with described main frame respectively from fork drives during described main fork rotation and describedly rotates from the fork synchronous backward; One end of described elastomeric element is fixed on the main frame, the other end of described elastomeric element and described main fork be connected from fork, apply pretightning force to input driven voller and output driven voller respectively by described main fork with from fork.

2. conveying device according to claim 1, it is characterized in that, described main fork comprises first swing arm, second swing arm and first pivot between described first swing arm and second swing arm, describedly comprise the 3rd swing arm from swing arm, the 4th swing arm and second pivot between described the 3rd swing arm and the 4th swing arm, described second swing arm is connected with described the 4th swing arm, described first swing arm is connected with described input driven voller, described the 3rd swing arm is connected with described output driven voller, described main fork and hinged by described first pivot and second pivot and main frame respectively from fork, when described main fork during, describedly rotate around the described second pivot synchronous backward from fork around the rotation of described first pivot.

3. conveying device according to claim 2 is characterized in that, described second swing arm is connected with the 4th swing arm and is specially:

In the two one of described second swing arm and the 4th swing arm is provided with first slotted hole, and another in the two is provided with lead, and described lead inserts in described first slotted hole.

4. conveying device according to claim 2 is characterized in that, described first swing arm is connected with the input driven voller, and the 3rd swing arm is connected with the output driven voller and comprises:

Described first swing arm is provided with second slotted hole, and the roll shaft of described input driven voller inserts in described second slotted hole, and described the 3rd swing arm is provided with the 3rd slotted hole, and the roll shaft of described output driven voller inserts in described the 3rd slotted hole.

5. conveying device according to claim 2 is characterized in that, described first swing arm is connected with the input driven voller, and the 3rd swing arm is connected with the output driven voller and comprises:

Described first swing arm is overlapped on the described input driven voller, and described the 3rd swing arm is overlapped on the described output driven voller.

6. conveying device according to claim 2 is characterized in that, described main fork drives described after the rotation of fork synchronous backward when rotating, and described first swing arm from main fork is identical with the described height that lifts from the 3rd swing arm of fork.

7. device according to claim 1 is characterized in that described elastomeric element is specially spring or shell fragment.

8. a recording medium treatment device is characterized in that, comprises any described conveying device of claim 1-9.