CN202826775U - Roll printing seal device with two seals - Google Patents

Abstract

The utility model discloses a roll printing seal device with two seals. The roll printing seal device with the two seals comprises a rack, a first seal component, a second seal component and a driving mechanism which drives the first seal component and the second component. A first rotating shaft and a second rotating shaft which parallels to the first rotating shaft are arranged on the rack. A first gear is arranged at the end portion of the first rotating shaft. A second gear is arranged at the end portion of the second rotating shaft. The first rotating shaft is a first seal rotating shaft of the first seal component. The second rotating shaft is a second seal rotating shaft of the second seal component or a transmission shaft connected with the second seal rotating shaft in a transmission mode. The roll printing seal device with the two seals also comprises a swinging mounting pin jointed to the rack by a pin joint shaft, a switch mechanism driving the swinging mounting to switch positions and a damping component which is arranged on the swinging mounting and locks the first gear or the second gear alternatively. Due to the fact that the roll printing seal device with the two seals can only lock the position of the seal rotating shaft of the seal component in a non-operating state, the roll printing seal device with the two seals can avoid increasing load on the driving mechanism.

Description

Roll stamping seal device with mackle chapter

Technical field

The utility model relates to a kind of roll stamping seal device with mackle chapter.

Background technology

Traditional bill such as invoice, banking document, is affixed one's seal by manually carrying out one by one craft after normally printing is finished.In order to increase work efficiency, alleviate operator's labour intensity, occurred a kind of for the roll stamping seal device at the bill surface automatic sealing.

The roll stamping seal device of initial design only is provided with a seal, therefore can only affix one's seal at the bill of single type, because the type of the stamped signature that dissimilar bill need to be impressed is different, the roll stamping seal device of single seal can not meet the demands.Chinese invention patent application 201110069762.3 discloses a kind of roll stamping seal device with mackle chapter, it adopts two seals of a motor-driven to rotate, the equal correspondence of each seal arranges a damping gear, in order to when not working, be in on-position, yet each seal all need overcome the resistance of damping gear when rotating could rotate, so, increased the driving load of motor.

The utility model content

The purpose of this utility model is to provide a kind of roll stamping seal device with mackle chapter, the larger problem of motor load when using single motor to drive the mackle chapter in the prior art to solve.

For this reason, the utility model provides a kind of roll stamping seal device with mackle chapter, comprise frame, the first seal assembly and the second seal assembly, and the driving mechanism that drives the first seal assembly and the second seal assembly, the second rotating shaft that this frame is provided with the first rotating shaft and parallels with the first rotating shaft, the end of the first rotating shaft is provided with the first gear, the end of the second rotating shaft is provided with the second gear, the first rotating shaft is the first seal rotating shaft of the first seal assembly, the second rotating shaft is the second seal rotating shaft of the second seal assembly or the power transmission shaft that is in transmission connection with the second seal rotating shaft, wherein, roll stamping seal device also comprises the swinging mounting that articulates by drive-connecting shaft and frame, drive swinging mounting and carry out the switching mechanism that switch the position, and be arranged on the swinging mounting and select at least one damper assembly that a ground locks the first gear or the second gear.

Further, above-mentioned at least one damper assembly is included in the first damper assembly and the second damper assembly that arranges on the swinging mounting, wherein, the first damper assembly comprises the first damping gear, the second damper assembly comprises the second damping gear, swinging mounting has primary importance and the second place, the first damping gear separates with the second gear with the engagement of the first gear and the second damping gear when swinging mounting is positioned at primary importance, and the second damping gear separates with the first gear with the engagement of the second gear and the first damping gear when swinging mounting is positioned at the second place.

Further, above-mentioned roll stamping seal device also comprises for detection of swinging mounting whether being positioned at the first sensor of primary importance and whether being positioned at the second sensor of the second place for detection of swinging mounting.

Further, above-mentioned the first gear is by First Transition gear and the engagement of the first damping gear, and the second gear is by the second transition gear and the engagement of the second damping gear.

Further, above-mentioned each damper assembly comprise the gear shaft free to rotate with respect to swinging mounting, the damping gear that is fixedly connected with gear shaft and arm-tie and be connected to arm-tie and swinging mounting between extension spring, wherein, damping gear and arm-tie lay respectively at the swinging mounting both sides.

Further, above-mentioned each damper assembly comprises the gear shaft that is fixedly connected with swinging mounting, with the damping gear of gear shaft socket and to the flexible member of damping gear bias voltage to stop damping gear to rotate, wherein, flexible member and damping gear are positioned at the same side of swinging mounting.

Further, above-mentioned switching mechanism comprises switch motor and the centering block that is connected with the output shaft of switch motor, and wherein, swinging mounting is provided with the first side plate and the second side plate that parallel interval arranges, and centering block is between the first side plate and the second side plate.

Further, above-mentioned the first seal assembly also comprise the first seal that is supported on the first seal rotating shaft, the first cylinder that cooperates with the first seal, free to rotate be set on the first seal rotating shaft and with tangent the first driven running roller that cooperates of the first cylinder; The second seal assembly also comprises the second seal that is supported on the second seal rotating shaft, the second tin roller that cooperates with the second seal, be set on the second seal rotating shaft free to rotately and with tangent the second driven running roller that cooperates of second tin roller, wherein, the first seal rotating shaft and the coaxial setting of the second seal rotating shaft or parallel interval setting, the second rotating shaft is the power transmission shaft that is in transmission connection with the second seal rotating shaft when the first seal rotating shaft arranges with the second seal rotating shaft is coaxial, when the first seal rotating shaft and the second seal rotating shaft parallel interval arranged, the second rotating shaft was the second seal rotating shaft.

Further, above-mentioned at least one damper assembly comprises a damping gear, wherein, swinging mounting has primary importance and the second place, damping gear separates with the engagement of the first gear and with the second gear when swinging mounting is positioned at primary importance, and damping gear separates with the engagement of the second gear and with the first gear when swinging mounting is positioned at the second place.

Further, above-mentioned frame comprise along the first side plate and second side plate of bill width parallel interval setting and be arranged on the first side plate and the second side plate between and form first passage plate and the second channel plate of bill transfer passage, wherein, described roll stamping seal device also comprises the conveying roller group that is arranged on described the first seal assembly and described the second seal assembly upstream along the bill throughput direction.

According to the roll stamping seal device that the utility model provides, be provided with the locking mechanism of selecting a locking with the first gear or the second gear, so can only lock the position of the seal rotating shaft of idle seal assembly, thus the problem of having avoided the driving mechanism load to increase.

Except purpose described above, feature and advantage, other purpose, feature and the advantage that the utlity model has are described in further detail in connection with accompanying drawing.

Description of drawings

Consist of this specification a part, be used for further understanding accompanying drawing of the present utility model and show preferred embodiment of the present utility model, and be used for illustrating principle of the present utility model with specification.Among the figure:

Fig. 1 is the axonometric drawing according to the roll stamping seal device of the utility model the first embodiment;

Fig. 2 is the section of structure according to the roll stamping seal device of the utility model the first embodiment;

Fig. 3 is the first axonometric drawing according to the locking mechanism of the roll stamping seal device of the utility model the first embodiment;

Fig. 4 is the second axonometric drawing according to the locking mechanism of the roll stamping seal device of the utility model the first embodiment;

Fig. 5 is the first axonometric drawing according to the locking mechanism of the roll stamping seal device of the utility model the second embodiment;

Fig. 6 is the second axonometric drawing according to the locking mechanism of the roll stamping seal device of the utility model the second embodiment; And

Fig. 7 is the axonometric drawing according to the locking mechanism of the roll stamping seal device of the utility model the 3rd embodiment.

Description of reference numerals

2 conveying mechanisms, 3 driving mechanisms

5 locking mechanisms, 81 left plates

82 right plates, 83 first passage plates

84 second channel plates, 11 first seal assemblies

12 second seal assemblies, 111 first seal rotating shaft

111a the first seal gear 112 first seals

113 first stamp-pad ink rollers, 114 first cylinders

831 breach 114a the first drum shaft

114b the first running roller 841 breach

121 second seal rotating shaft 121a the second seal gear

122 second seals, 123 second stamp-pad ink rollers

124 second tin roller 124a second tin roller axles

124b the second running roller 21 conveying roller groups

22 first driven running roller 23 second driven running rollers

211 first rollers, 212 second rollers

511 drive-connecting shafts, 811 First Transition gears

812 second transition gears, 51 swinging mountings

52 first damper assemblies, 53 second damper assemblies

54 changeover modules, 541 motors

542 centering blocks, 512 first side plates

513 second side plates, 521 first damping gears

522 first damping gear axles, 523 first arm-ties

524 first springs 525 the 3rd spring

526 packing rings, 531 second damping gears

532 second damping gear axles, 533 second arm-ties

534 second springs 535 the 4th spring

536 packing rings, 61 first sensors

Support plate in the middle of 62 second sensors 85

851 left wall 852 right walls

131 drum shafts, 132 running rollers

132a split roller 7 transmission components

71 power transmission shafts, 72 first travelling gears

73 second travelling gears, 74 second transition gear groups.

The specific embodiment

Below in conjunction with accompanying drawing embodiment of the present utility model is elaborated, but the multitude of different ways that the utility model can be defined by the claims and cover is implemented.

Fig. 1 is the first axonometric drawing according to the roll stamping seal device of the utility model the first embodiment, and Fig. 2 is the section of structure according to the roll stamping seal device of the utility model the first embodiment.As shown in Figure 1 and Figure 2, roll stamping seal device comprises frame, stamp mechanism, conveying mechanism 2, driving mechanism 3 and locking mechanism 5.

Wherein, frame comprises left plate 81, right plate 82, first passage plate 83, and second channel plate 84, and wherein, left plate 81 and right plate 82 opposing parallel intervals arrange, and distance between the two is more than or equal to the Breadth Maximum of bill; First passage plate 83 and second channel plate 84 interval setpoint distance vertical supports form the transfer passage of bill between the two between left plate 81 and right plate 82.

Stamp mechanism comprises the first seal assembly 11 and the second seal assembly 12, and wherein, the first seal assembly 11 is for the first stamped signature of impressing in bill surface, and the second seal assembly 12 is for the second stamped signature of impressing in bill surface.Along the bill throughput direction, the first seal assembly 11 and the second seal assembly 12 can be successively set on the bill transport path, also can be set up in parallel on the bill transport path.In the present embodiment, along the bill throughput direction, the second seal assembly 12 and the first seal assembly 11 are successively set on the bill transport path.

The first seal assembly 11 comprises the first seal rotating shaft 111, the first seal gear 111a, the first seal 112, the first stamp-pad ink roller 113 and the first cylinder 114.Wherein, the first seal rotating shaft 111 is positioned at the side that first passage plate 83 deviates from transfer passage, its two ends are supported by left plate 81 and right plate 82 respectively, the first seal gear 111a is fixedly installed on the axle head of the first seal rotating shaft 111, the first seal rotating shaft 111 is in transmission connection by the first seal gear 111a and driving mechanism 3, and the first seal rotating shaft 111 can be rotated around self axis under the driving of driving mechanism 3; The first seal 112 is half-cylindrical, the signature face is arranged on the semi-cylindrical arc surface, the first seal 112 is fixedly connected with the first seal rotating shaft 111, when the first seal rotating shaft 111 when self axis rotates, the first seal 112 rotates synchronously with the first seal rotating shaft 111, and the signature face of the first seal 112 can pass the breach 831 that arranges on the first passage plate 83 and contact with bill surface.

The first stamp-pad ink roller 113 is used for replenishing printing ink to the first seal 112, its axis is parallel to the axis setting of the first seal rotating shaft 111, can freely rotate around self axis, when the first seal 112 rotates, the signature face of the first seal 112 can contact with 113 extruding of the first stamp-pad ink roller, and roll with respect to the first stamp-pad ink roller 113, thereby draw printing ink on the first stamp-pad ink roller 113; The first cylinder 114 is positioned at a side that deviates from transfer passage of second channel plate 84.

The first cylinder 114 comprises the first drum shaft 114a and the first running roller 114b, wherein, the axis of the first drum shaft 114a is parallel with the axis of the first seal rotating shaft 111, its two ends are supported by left plate 81 and right plate 82, the first drum shaft 114a and driving mechanism 3 are in transmission connection, under the driving of driving mechanism 3, can rotate around self axis; It is peripheral that the first running roller 114b is fixedly installed on the first drum shaft 114a, along extending axially of the first drum shaft 114a, its length is greater than the length of the first seal 112, its material can be that rubber, plastics etc. have flexible material, when the first drum shaft 114a rotated, the first running roller 114b rotated thereupon synchronously.

The breach 841 that the first running roller 114b passes on the second channel plate 84 is relative with the first seal 112, when between bill is by the first cylinder 114 and the first seal 112, passing, the controller (not shown) control driving mechanism 3 of roll stamping seal device drives the first seal rotating shaft 111 and rotates, thereby driving the first seal 112 rotates, the signature face of the first seal 112 and 114 tangent cooperations of the first cylinder, printing ink is transferred on the bill surface, forms the first stamped signature.

The second seal assembly 12 comprises the second seal rotating shaft 121, the second seal gear 121a, the second seal 122, the second stamp-pad ink roller 123 and second tin roller 124.Wherein, the second seal rotating shaft 121 is positioned at a side that deviates from transfer passage of first passage plate 83, its two ends are supported by left plate 81 and right plate 82 respectively, the second seal gear 121a is fixedly installed on the second seal rotating shaft 121 axle heads, the second seal rotating shaft 121 is in transmission connection by the second seal gear 121a and driving mechanism 3, and the second seal rotating shaft 121 can be rotated around self axis under the driving of driving mechanism 3; The second seal 122 is half-cylindrical, the signature face is arranged on the semi-cylindrical arc surface, the second seal 122 is fixedly connected with the second seal rotating shaft 121, when the second seal rotating shaft 121 when self axis rotates, the second seal 122 rotates synchronously with the second seal rotating shaft 121, and the signature face of the second seal 122 can pass the breach 831 that arranges on the first passage plate 83 and contact with bill surface.

The second stamp-pad ink roller 123 is used for replenishing printing ink to the second seal 122, its axis is parallel to the axis setting of the second seal rotating shaft 121, can freely rotate around self axis, when the second seal 122 rotates, the signature face of the second seal 122 can contact with 123 extruding of the second stamp-pad ink roller, and roll with respect to the second stamp-pad ink roller 123, thereby draw printing ink on the second stamp-pad ink roller 123; Second tin roller 124 is positioned at a side that deviates from transfer passage of second channel plate 84.Second tin roller 124 comprises second tin roller axle 124a and the second running roller 124b, wherein, the axis of second tin roller axle 124a is parallel with the axis of the second seal rotating shaft 121, its two ends are supported by left plate 81 and right plate 82, second tin roller axle 124a and driving mechanism 3 are in transmission connection, under the driving of driving mechanism 3, can rotate around self axis; It is peripheral that the second running roller 124b is fixedly installed on second tin roller axle 124a, along extending axially of second tin roller axle 124a, its length is greater than the length of the second seal, its material can be that rubber, plastics etc. have flexible material, when second tin roller axle 124a rotated, the second running roller 124b rotated thereupon synchronously.

The breach 841 that the second running roller 124b passes on the second channel plate 84 is relative with the second seal 122, when between bill is by second tin roller 124 and the second seal 122, passing, the controller control driving mechanism 3 of roll stamping seal device drives the second seal rotating shaft 121 and rotates, thereby driving the second seal 122 rotates, the signature face of the second seal 122 and 124 tangent cooperations of second tin roller, printing ink is transferred on the bill surface, forms the second stamped signature.

Conveying mechanism 2 comprises conveying roller group 21 and at least one the first driven running roller 22 that is arranged on the transfer passage, and at least one second driven running roller 23, wherein, along the bill throughput direction, conveying roller group 21 is positioned at the upstream of stamp mechanism, comprise tangent setting and be positioned at the first roller 211 and the second roller 212 of transfer passage both sides, the axis of the first roller 211 and second roller 212 is parallel with the axis of the first seal rotating shaft 111, the two ends of the first roller 211 and second roller 212 are supported by left plate 81 and right plate 82, can freely rotate around self axis.Among both one of the first roller 211 and second roller 212 is in transmission connection with driving mechanism 3, under the driving of driving mechanism 3, the first roller 211 or the second roller 212 that are in transmission connection with driving mechanism 3 rotate, and drive another roller and rotate, and the bill that will be positioned at is between the two carried to the stamp mechanism direction.The second roller 212 of conveying roller group 21 is in transmission connection with driving mechanism 3 in the present embodiment, and under the driving of driving mechanism 3, second roller 212 rotates, and drives the first roller 211 and rotates thereupon, the bill that is positioned between the two can be carried to stamp mechanism.

At least one first driven running roller 22 and 111 sockets of the first seal rotating shaft, and tangent with the first running roller 114b of the first cylinder 114, can freely rotate around the first seal rotating shaft 111, when the first cylinder 114 rotates, drive the first driven running roller 22 and rotate around the first seal rotating shaft 111, thereby drive in the first running roller 114b of the first cylinder 114 and the bill downstream transport between the first driven running roller 22; At least one second driven running roller 23 and 121 sockets of the second seal rotating shaft, and tangent with the second running roller 124b of second tin roller 124, can freely rotate around the second seal rotating shaft 121, when second tin roller 124 rotates, drive the second driven voller 23 and rotate around the second seal rotating shaft 121, thereby drive in the second running roller 124b of second tin roller 124 and the bill downstream transport between the second driven running roller 23.In the present embodiment, conveying mechanism 2 comprises two the first driven running roller 22 and two the second driven running rollers 23 that lay respectively at the second seal 122 both sides of laying respectively at the first seal 112 both sides.

Driving mechanism 3 is used for driving second roller 212 and the first cylinder 114 and second tin roller 124 rotations of conveying roller group 21, and also a ground drives the first seal 112 or the second seal 122 rotates the operation of affixing one's seal for selecting by modes such as electromagnetic clutch or unilateral bearings.Driving mechanism can only comprise a motor, and this motor had both driven second roller 212 and the first cylinder 114 and second tin roller 124 rotations of conveying roller group 21, selects again a ground and drives the first seal 112 or 122 rotations of the second seal; Driving mechanism 3 also can comprise the first motor and the second motor, wherein, the first motor is used for driving second roller 212 and the first cylinder 114 and second tin roller 124 rotations of conveying roller group 21, and the second motor is used for selecting a ground and drives the first seal 112 or 122 rotations of the second seal.Because this partial content and the utility model relation are little, do not repeat them here.

Locking mechanism 5 is used for selecting the position that a ground locks the first seal 112 or the second seal 122.Locking mechanism 5 articulates by drive-connecting shaft 511 and left plate 81 or right plate 82, can rotate with respect to left plate 81 or right plate 82 around drive-connecting shaft 511, thereby select a ground and the first seal gear 111a or the second seal gear 121a is in transmission connection, by limiting the rotation of the first seal rotating shaft 111 or the second seal rotating shaft 121, to reach the purpose of the position of limiting the first seal 112 or the second seal 122.

The first seal gear 111a is positioned at the axle head that closes on left plate 81 of the first seal rotating shaft 111 in the present embodiment, the second seal gear 121a is positioned at the axle head that closes on left plate 81 of the second seal rotating shaft 121, locking mechanism 5 articulates by drive-connecting shaft 511 and left plate 81, can rotate with respect to left plate 81 around drive-connecting shaft 511.Also be provided with First Transition gear 811 and the second transition gear 812 in the present embodiment on the left plate 81, wherein First Transition gear 811 and the first seal gear 111a engagement, the second transition gear 812 and the second seal gear 121a engagement, locking mechanism 5 is selected a ground and First Transition gear 811 or 812 engagements of the second transition gear, locks the first seal gear 111a or the second seal gear 121a thereby select a ground.

Fig. 3 is the first axonometric drawing according to the locking mechanism of the roll stamping seal device of the utility model the first embodiment, and Fig. 4 is the second axonometric drawing according to the locking mechanism of the roll stamping seal device of the utility model the first embodiment.Be clear demonstration, omitted the left plate that locking mechanism is installed among the figure.The specific embodiment of locking mechanism 5 is described below in conjunction with Fig. 1, Fig. 3 and Fig. 4.As shown in the figure, locking mechanism 5 comprises swinging mounting 51, the first damper assembly 52, the second damper assembly 53, and changeover module 54.

Swinging mounting 51 articulates by drive-connecting shaft 511 and left plate 81, can rotate on left plate 81 surfaces around drive-connecting shaft 511, have primary importance and the second place, when swinging mounting 51 is positioned at primary importance, the position of locking mechanism 5 lockings the first seal 112, when swinging mounting 51 is positioned at the second place, the position of locking mechanism 5 lockings the second seal 122; Be provided with on the swinging mounting 51 along the first side plate 512 and second side plate 513 of the Axis Extension of drive-connecting shaft 511, both opposing parallel and interval preset distance, and lay respectively at the both sides of drive-connecting shaft 511.

Changeover module 54 is used for driving swinging mounting 51 and rotates.Changeover module 54 comprises motor 541 and centering block 542, and wherein motor 541 is fixedly connected with left plate 81; Centering block 542 is fixedly connected with the output shaft of motor 541, between first side plate 512 and the second side plate 513 of swinging mounting 51, when the output shaft rotation of motor 541, can drive centering block 542 around the output shaft rotation of motor 541, centering block 542 contacts with the first side plate 512 or second side plate 513 of swinging mounting 51, and promote swinging mounting 51 around drive-connecting shaft 511 rotations, make swinging mounting 51 be positioned at primary importance or the second place.

The first damper assembly 52 and the second damper assembly 53 are separately positioned on the swinging mounting 51, and are positioned at the both sides of drive-connecting shaft 511.The first damper assembly 52 closes on and is positioned at the first seal gear 111a setting, comprise the first damping gear 521, the first gear shaft 522, the first arm-tie 523, and the first spring 524, wherein, the first gear shaft 522 articulates with swinging mounting 51, can freely rotate around self axis; The first damping gear 521 is fixedly connected with the first damping gear axle 522, and when the first damping gear axle 522 rotated, the first damping gear 521 rotated thereupon synchronously; The first arm-tie 523 is fixedly connected with the first damping gear axle 522; One end of the first spring 524 is connected with the first arm-tie 523, the other end is connected with swinging mounting 51, under the effect of the first spring 524, the first arm-tie 523 has all the time winding and decides the movement tendency that direction is rotated, when swinging mounting 51 turns to primary importance under the driving of changeover module 54, the first damping gear 521 and 811 engagements of First Transition gear, and under the effect of the first spring 524, make the first damping gear 521 stop at this position no longer to rotate, because First Transition gear 811 and the first seal gear 111a engagement, therefore, when the first damping gear 521 can not rotate, can stop the first seal rotating shaft 111 that is in transmission connection with First Transition gear 811 to be rotated, reach the purpose that limits the first seal 112 positions.

The second damper assembly 53 is positioned at the opposite side of drive-connecting shaft 511 with respect to the first damper assembly 52, closing on the second seal gear 121a arranges, comprise the second damping gear 531, the second damping gear axle 532, the second arm-tie 533, and second spring 534, wherein the second damping gear axle 532 articulates with swinging mounting 51, can freely rotate around self axis; The second damping gear 531 is fixedly connected with the second damping gear axle 532, and when the second rotating shaft 532 was rotated, the second damping gear 531 rotated thereupon synchronously; The second arm-tie 533 is fixedly connected with the second damping gear axle 532; One end of the second spring 534 is connected with the second arm-tie 533, the other end is connected with swinging mounting 51, under the effect of the second spring 534, the second arm-tie 533 has all the time winding and decides the movement tendency that direction is rotated, when swinging mounting 51 turns to the second place under the driving of changeover module 54, the second damping gear 531 and 812 engagements of the second transition gear, and under the effect of the second spring 534, make the second damping gear 531 stop at this position no longer to rotate, because the second transition gear 812 and the second seal gear 121a engagement, therefore, when the second damping gear 531 can not rotate, can stop the second seal rotating shaft 121 that is in transmission connection with the second seal gear 121a to be rotated, reach the purpose that limits the second seal 122 positions.

Further, roll stamping seal device also comprises testing agency, for detection of the position of locking mechanism 5.As shown in Figure 2, testing agency comprises first sensor 61 and the second sensor 62, and both all are fixedly installed on the frame, wherein, first sensor 61 is corresponding with the primary importance of swinging mounting 51, and swinging mounting 51 can cooperate with first sensor 61 or separate when drive-connecting shaft 511 rotates; The second sensor 62 is corresponding with the second place of swinging mounting 51, swinging mounting 51 can cooperate with the second sensor 62 or separate when drive-connecting shaft 511 rotates, first sensor 61 and the second sensor 62 can be electro-optical pickoffs, also can be mechanical sensors.First sensor 61 and the second sensor 62 are shape of a saddle electro-optical pickoff in the present embodiment, the swinging mounting 51 of locking mechanism can stretch in rotation process in the groove of first sensor 61 or the second sensor 62, can stop the optical transmitting set of first sensor 61 or the second sensor 62 and the light transmition path between the optical receiver.

When swinging mounting 51 turns to primary importance, swinging mounting 51 inserts in the groove of first sensor 61, the optical transmitting set of first sensor 61 and the light transmition path between the optical receiver have been stopped, first sensor 61 outputs the first detection signal, such as low level, when swinging mounting 51 separated with first sensor 61, first sensor 61 outputs the second detection signal was such as high level; When swinging mounting 51 turns to the second place, swinging mounting 51 inserts in the groove of the second sensor 62, the optical transmitting set of the second sensor 62 and the light transmition path between the optical receiver have been stopped, the second sensor 62 outputs the first detection signal, such as low level, when swinging mounting 51 separated with the second sensor 62, the second sensor 62 outputs the second detection signal was such as high level.Therefore, by detecting the conveying signal of first sensor 61 and the second sensor 62, the motor 541 of control changeover module 54 rotates or stops, and can make locking mechanism be positioned at desired location, will set the seal locking.

The below introduces the course of work of the roll stamping seal device that the utility model provides.

The controller of roll stamping seal device detects the output signal of first sensor 61 and the second sensor 62, if first sensor 61 is exported the first detection signals and the second sensor 62 outputs the second detection signal, namely the position of the first seal 112 is locked.

When needs are impressed the first stamped signature, then the motor 541 in the controller control locking mechanism 5 rotates, being fixedly mounted on centering block 542 on the output shaft of motor 541 drives swinging mounting 51 and is rotated to the second place by primary importance, when swinging mounting 51 turns to the second place, the second sensor 62 outputs the first detection signal, controller is controlled accordingly motor 541 and is stopped operating, this moment, the position of the second seal 122 was locked, the position release of the first seal 112, the second roller 212 that controller control driving mechanism 3 drives conveying mechanism 2 rotates, the downstream transport bill, bill is at first through the second seal assembly 12, second tin roller 124 rotates, the second driven voller 23 rotates thereupon, carries bill to the first seal assembly 11, because the position locked (namely the second seal rotating shaft 121 maintains static) of the second seal 122, therefore, the second driven voller 23 frictional force between the two when the second seal rotating shaft 121 is rotated can not make the second seal 122 positions change yet.When the precalculated position of bill arrives the first seal assembly 11, control the first seal 112 and roll with respect to the first cylinder 13, the graph transfer printing of signature face is generated the first stamped signature in bill surface.

When needs are impressed the second seal, then controller direct controlling and driving mechanism 3 drives second roller 212 rotations of conveying mechanism 2, carry bill to the second seal assembly 12 and downstream thereof, when the precalculated position on the bill arrives the second seal assembly 12, controlling the second seal 122 rolls with respect to second tin roller 124, the graph transfer printing of signature face is generated the second stamped signature in bill surface, then bill is transported to the first seal assembly 11 under the driving of second tin roller 124 and the second driven voller 23, this moment, the position of the first seal 112 was locked, the first cylinder 114 rolls, the first driven running roller 22 rotates thereupon, and the bill that drives between the first cylinder 114 and the first driven running roller 22 is sent roll stamping seal device.Because the position locked (namely the first seal rotating shaft 111 maintains static) of the first seal 112, therefore, the frictional force when the first driven running roller 22 rotates around the first seal rotating shaft 111 between the two can not make the first seal 112 positions change yet.

The roll stamping seal device with mackle chapter that the utility model provides, the first seal is fixedly connected with the second seal rotating shaft with the first seal rotating shaft respectively with the second seal, locking mechanism and frame articulate, can select the position of ground locking and the first seal rotating shaft or the second seal rotating shaft, make the position of the seal that is fixedly connected with this seal rotating shaft locked.Therefore, when the seal rotating shaft of idle seal is in transmission connection in driving locking mechanism rotation and the first seal and the second seal, can lock the position of this idle seal, thereby when both having avoided any one the seal work in the mackle chapter of roll stamping seal device, the driven voller rotation that is socketed owing to the seal rotating shaft with another idle seal causes the unsettled problem in idle seal position, can not increase again the load of driving mechanism.

Fig. 5 is the first axonometric drawing according to the locking mechanism of the roll stamping seal device of the utility model the second embodiment, and Fig. 6 is the second axonometric drawing according to the locking mechanism of the roll stamping seal device of the utility model the second embodiment.As shown in Figure 5 and Figure 6, the present embodiment is compared with a upper embodiment, difference is, the first seal assembly 11 and the second seal assembly 12 are set up in parallel along the bill throughput direction, and the first seal rotating shaft 111 of the first seal assembly 11 and the second seal rotating shaft 121 of the second seal assembly 12 are independent separately, and both axis are located along the same line.Roll stamping seal device also comprises transmission component 7.

Frame also comprises the middle support plate 85 of U-shaped, and middle support plate 85 comprises left wall 851 and the right wall 852 of opposing parallel, and both all vertically are fixedly connected with first passage plate 83, are positioned at the side that first passage plate 83 deviates from transfer passage.

Wherein, the first seal rotating shaft 111 two ends of the first seal assembly 11 are supported by the left wall 851 of left plate 81 and middle support plate 85 respectively, and the first seal gear 111a is arranged on an end of its contiguous left plate 81; The second seal rotating shaft 121 two ends of the second seal assembly 12 are supported by right wall 852 and the right plate 82 of middle support plate 85 respectively, and the second seal gear 121a is arranged on an end of its contiguous right plate 82; The first seal assembly 11 and the second seal assembly 122 adopt same cylinder 13, cylinder 13 is oppositely arranged with the first seal 112 and the second seal 122 simultaneously, be positioned at a side that deviates from transfer passage of second channel plate 84, cylinder 13 comprises drum shaft 131 and running roller 132, wherein, the axis of drum shaft 131 is parallel with the axis of the second seal rotating shaft 121 with the first seal rotating shaft 111, its two ends are supported by left plate 81 and right plate 82, can freely rotate around self axis, and be in transmission connection with driving mechanism 3; Running roller 132 is fixedly installed on drum shaft 131 peripheries, its material can be that rubber, plastics etc. have flexible material, running roller 132 can be the suitable one roller of the overall length of a segment length and the first seal 112 and the second seal 122, also can be two segment length respectively with the suitable split roller of the first seal 112 and the second seal 122, the present embodiment middle roll 132 comprises two sections split roller 132a, two sections split roller 132a are relative with the second seal 122 with the first seal 112 respectively, and tangent with the first driven running roller 22 and the second driven running roller 23 respectively.

Transmission component 7 is used for and will be in transmission connection by locking mechanism 5 and the second seal gear 121a, thereby locks the second seal 122 positions.

Transmission component 7 comprises power transmission shaft 71, the first travelling gear 72, the second travelling gear 73, and the second transition gear group 74, and wherein, the two ends of power transmission shaft 71 are supported by left plate 81 and right plate 82; The first travelling gear 72 is fixed on the end that power transmission shaft 71 closes on left plate 81, with 812 engagements of the second transition gear; The second travelling gear 73 is fixed on an end that closes on right plate 82 of power transmission shaft 71; The second transition gear group 74 is arranged on the right plate 82, and the second transition gear group 74 comprises at least one transition gear, by the second transition gear group 74 the second travelling gear 73 and the second seal gear 121a is in transmission connection.When swinging mounting 51 was positioned at the second place, the second damping gear 53 was by the second transition gear 812, the first travelling gear 72, power transmission shaft 71, the second travelling gear 73, and the second transition gear group 74, with the second seal gear 121a engaged transmission.

The roll stamping seal device with mackle chapter that provides in the present embodiment, be set up in parallel along bill throughput direction the first seal and the second seal, therefore shorten the physical dimension of device along the bill throughput direction, dwindled installing space, can adapt to the installation requirement of more occasions.

Fig. 7 is the axonometric drawing according to the locking mechanism of the roll stamping seal device of the utility model the 3rd embodiment.As shown in Figure 7, the present embodiment is compared with above-described embodiment, and difference is, the first damping gear 521 of the first damper assembly 52 is compressed by the 3rd spring 525, is prevented from rotating.The second damping gear 531 of the second damper assembly 53 is compressed by the 4th spring 535, is prevented from rotating.

Preferably, the 3rd spring 524 is stage clip, the end face butt of one end and the first damping gear 521, the other end is fixed on back-up ring 526 butts on the first gear shaft 522, the 3rd spring 524 is pressed on the first damping gear 521 with the pretightning force of setting, and frictional force between the two can stop the first damping gear 521 to rotate.When swinging mounting 51 turns to primary importance under the driving of changeover module 54, the first damping gear 521 and 811 engagements of First Transition gear, and under the effect of the 3rd spring 524, make the first damping gear 521 stop at this position no longer to rotate, because First Transition gear 811 and the first seal gear 111a engagement, therefore, the first damping gear 521 can stop the first seal rotating shaft 111 to be rotated, and reaches the purpose of locking the first seal 112 positions.

Preferably, the 4th spring 534 is stage clip, the end face butt of one end and the second damping gear 531, the other end and back-up ring 536 butts that are fixed on the second gear shaft 532, the 4th spring 534 is pressed on the second damping gear 531 with the pretightning force of setting, and frictional force between the two can stop the second damping gear 531 to rotate.When swinging mounting 51 turns to the second place under the driving of changeover module 54, the second damping gear 531 and 812 engagements of the second transition gear, and under the effect of the 4th spring 535, make the second damping gear 531 stop at this position no longer to rotate, because First Transition gear 811 and the second seal gear 121a engagement, therefore, the second damping gear 531 can stop the second seal rotating shaft 121 to be rotated, and reaches the purpose that limits the second seal 122 positions.

In the variant embodiment of Fig. 7, above-mentioned the 3rd spring 525 and the 4th spring 535 can be replaced by rubber sleeve.

In the various embodiments described above, the drive-connecting shaft of swinging mounting is positioned at the below of the first seal rotating shaft and the second seal rotating shaft, swinging mounting is provided with the first damper assembly and the second damper assembly, the first damper assembly is positioned at the outside of the first seal gear when not meshing with the first seal gear, the second damper assembly also is positioned at the outside of the second seal gear when not meshing with the second seal gear, that is to say, the first damper assembly and the second damper assembly are not arranged on the first seal gear and the second seal gear between the two, can arrange a driven wheel between the first seal gear and the second seal gear, so when driven wheel and the first seal meshed transmission gear, the second damper assembly and the second seal gear mesh to lock the second seal gear, when driven wheel and the second seal meshed transmission gear, the first damper assembly and the first seal gear mesh to lock the first seal gear.In other embodiment of the present utility model, on the swinging mounting damping gear can only be set, this damping gear can be arranged between the first seal gear and the second seal gear, selects a ground and the first seal gear or the second seal gear lock fit with the swing of swinging mounting.

The above is preferred embodiment of the present utility model only, is not limited to the utility model, and for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., all should be included within the protection domain of the present utility model.

Claims (10)

1. roll stamping seal device with mackle chapter, comprise frame, the first seal assembly (11) and the second seal assembly (12), and the driving mechanism (3) that drives described the first seal assembly (11) and the second seal assembly (12), it is characterized in that, the second rotating shaft that described frame is provided with the first rotating shaft and parallels with described the first rotating shaft, the end of described the first rotating shaft is provided with the first gear, the end of described the second rotating shaft is provided with the second gear, described the first rotating shaft is first seal rotating shaft (111a) of described the first seal assembly (11), described the second rotating shaft is second seal rotating shaft (121) of described the second seal assembly (12) or the power transmission shaft (71) that is in transmission connection with described the second seal rotating shaft (121), wherein, described roll stamping seal device also comprises the swinging mounting (51) that articulates by drive-connecting shaft (511) and described frame, drive described swinging mounting (51) and carry out the switching mechanism that switch the position, and it is upper and select at least one damper assembly that a ground locks described the first gear or the second gear to be arranged on described swinging mounting (51).

2. the roll stamping seal device with mackle chapter according to claim 1, it is characterized in that, described at least one damper assembly is included in upper the first damper assembly (52) and the second damper assembly (53) that arranges of described swinging mounting (51), wherein, described the first damper assembly (52) comprises the first damping gear (521), described the second damper assembly (53) comprises the second damping gear (531), described swinging mounting (51) has primary importance and the second place, described swinging mounting (51) when being positioned at described primary importance described the first damping gear (521) separate with described the second gear with the engagement of described the first gear and described the second damping gear (531), described swinging mounting (51) when being positioned at the described second place described the second damping gear (531) mesh with described the second gear and described the first damping gear (521) separates with described the first gear.

3. the roll stamping seal device with mackle chapter according to claim 2, it is characterized in that also comprise for detection of described swinging mounting (51) whether being positioned at the first sensor (61) of described primary importance and whether being positioned at second sensor (62) of the described second place for detection of described swinging mounting (51).

4. the roll stamping seal device with mackle chapter according to claim 2, it is characterized in that, described the first gear is by First Transition gear (811) and described the first damping gear (521) engagement, and described the second gear is by the second transition gear (812) and described the second damping gear (812) engagement.

5. the roll stamping seal device with mackle chapter according to claim 1, it is characterized in that, each described damper assembly comprises the gear shaft (522) free to rotate with respect to described swinging mounting (51), the damping gear (521) that is fixedly connected with described gear shaft (522) and arm-tie (523), and be connected to extension spring (524) between described arm-tie (523) and the swinging mounting (51), wherein, described damping gear (521) and described arm-tie (523) lay respectively at described swinging mounting (51) both sides.

6. the roll stamping seal device with mackle chapter according to claim 1, it is characterized in that, each described damper assembly comprises the gear shaft (522) that is fixedly connected with described swinging mounting (51), with the damping gear (521) of described gear shaft (522) socket and to the flexible member (525) of described damping gear (521) bias voltage to stop described damping gear (521) to rotate, wherein, described flexible member (525) and described damping gear (521) are positioned at the same side of described swinging mounting (51).

7. the roll stamping seal device with mackle chapter according to claim 1, it is characterized in that, described switching mechanism comprises the centering block (542) that switch motor (541) is connected with output shaft with described switch motor (541), wherein, described swinging mounting (51) is provided with the first side plate (512) and the second side plate (513) that parallel interval arranges, and described centering block (542) is positioned between described the first side plate (512) and the second side plate (513).

8. the roll stamping seal device with mackle chapter according to claim 1, it is characterized in that, described the first seal assembly (11) also comprise the first seal (112) that is supported on described the first seal rotating shaft (111), the first cylinder (114) that cooperates with described the first seal (112), free to rotate be set in described the first seal rotating shaft (111) upper and with tangent the first driven running roller (22) that cooperates of described the first cylinder (114); Described the second seal assembly (12) also comprises the second seal (122) that is supported on described the second seal rotating shaft (121), the second tin roller (124) that cooperates with described the second seal (122), be set in free to rotately described the second seal rotating shaft (121) upper and with tangent the second driven running roller (23) that cooperates of described second tin roller (124), wherein, described the first seal rotating shaft (111) and the coaxial setting of described the second seal rotating shaft (121) or parallel interval setting, at described the first seal rotating shaft (111) described the second rotating shaft power transmission shaft (71) for being in transmission connection with described the second seal rotating shaft (121) during with coaxial setting of described the second seal rotating shaft (121), when parallel interval arranged, described the second rotating shaft was described the second seal rotating shaft (121) in described the first seal rotating shaft (111) and described the second seal rotating shaft (121).

9. the roll stamping seal device with mackle chapter according to claim 1, it is characterized in that, described at least one damper assembly comprises a damping gear, wherein, described swinging mounting (51) has primary importance and the second place, described damping gear separates with the engagement of described the first gear and with described the second gear when being positioned at primary importance at described swinging mounting (51), described swinging mounting (51) when being positioned at the second place described damping gear separate with described the second gear engagement and with described the first gear.

10. the roll stamping seal device with mackle chapter according to claim 1, it is characterized in that, described frame comprise the first passage plate (83) that forms the bill transfer passage and second channel plate (84) and along the width parallel interval of described bill transfer passage be arranged on the first side plate (81) and second side plate (82) of described first passage plate (83) and second channel plate (84) both sides, wherein, described roll stamping seal device also comprises the conveying roller group (21) that is arranged on described the first seal assembly (11) and described the second seal assembly (12) upstream along the bill throughput direction.

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