CN217259253U - Multi-connected object paging stamping equipment and printer - Google Patents

Abstract

The utility model discloses an object paging equipment of stamping that ally oneself with more, include: the cutting driving device is used for cutting the input multi-connected objects to remove the connecting parts among the page objects and outputting the cut multi-connected objects; the transposition conveying device is used for receiving the multi-connected object output by the cutting driving device and conveying the multi-connected object to an output end, and the conveying end of the transposition conveying device can be driven to a first supply position and a second supply position; and an input port of the stamping device is positioned at the first supply position and is provided with a paging device for leading in multi-connected objects at the conveying end of the transposition conveying device page by page, and an input module of the stamping device conveys each page object led in by the paging device to the stamping position for stamping through a stamping module. The multi-connected object paging stamping equipment can finish automatic stamping, so that the problem that the existing multi-connected object stamping is inconvenient can be effectively solved. The invention discloses a printer comprising the multi-connected object paging stamping equipment.

Description

Multi-connected object paging stamping equipment and printer

Technical Field

The utility model relates to the technical field of office equipment, in particular to a multi-connected object paging stamping device; still relate to a printer that includes above-mentioned many online object paging stamping equipment.

Background

At present, the printing of the invoice in the market is mainly realized by manually splitting the invoice and then stamping the invoice as required, so that the printing of the multi-coupon invoice with a large number is troublesome, and the workload is very large.

In summary, how to effectively solve the problem of inconvenience in stamping of the multi-connected object is a problem that needs to be solved urgently by a person skilled in the art at present.

SUMMERY OF THE UTILITY MODEL

In view of the above, a first object of the present invention is to provide a multi-connected object paging stamping device, which can effectively solve the problem of inconvenience in stamping multi-connected objects at present; the invention aims to provide a printer comprising the multi-connected object paging stamping device.

In order to achieve the above object, the utility model provides a following technical scheme:

a multi-connected object paging stamping device, comprising:

the cutting driving device is used for cutting the input multi-connected objects to remove the connecting parts among the page objects and outputting the cut multi-connected objects;

the transposition conveying device is used for receiving the multi-connected object output by the cutting driving device and conveying the multi-connected object to an output end, and the conveying end of the transposition conveying device can be driven to a first supply position and a second supply position;

and an input port of the stamping device is positioned at the first supply position and is provided with a paging device for leading in the multi-connected objects at the conveying end of the transposition conveying device page by page, and an input module of the stamping device conveys the page objects led in by the paging device to the stamping position for stamping through a stamping module.

In the multi-connected object page-by-page stamping device, when in use, multi-connected objects such as invoices are sent to a cutting driving device, and after being cut by the cutting driving device, the connection relation among all page objects is removed. And then conveying the multi-connected objects to a first supply position through a transposition conveying device, leading in the objects needing to be stamped above one by one through a paging device of the stamping device, and leading out the objects after automatic stamping. And the remaining objects that need not to be stamped are driven to the second supply position through the conveying end of the transposition conveying device, so that the objects can be output from other places, the automatic stamping of one or more objects in the multi-connected objects is completed, the stamping speed is greatly increased, the stamped objects can be separated from the non-stamped objects, and the multi-connected object paging stamping equipment can effectively solve the problem that the multi-connected objects are inconvenient to stamp at present.

Preferably, the transposition conveying device comprises a conveying mechanism, a driving mechanism and a transmission cam, an input end of the conveying mechanism is in butt joint with an output end of the cutting driving device, the driving mechanism is used for driving the transmission cam to rotate, and the transmission cam rotates to push the conveying mechanism to swing so that the output end of the conveying mechanism can move to the first supply position and the second supply position.

Preferably, the paging device includes a pickup roller, and an elastic support device is disposed between the transmission cam and the conveying mechanism, so as to push a multi-link object on the conveying end of the conveying mechanism to abut against the pickup roller at the first supply position.

Preferably, the device further comprises a paging device which is abutted against the paper pickup wheel and used for preventing each page object on the lower side of the upper page object which is guided into the paper pickup wheel.

Preferably, the device further comprises a pressing plate rotationally connected with the conveying mechanism, the pressing plate abuts against a wheel surface of the transmission cam, and an elastic supporting device for preventing the pressing plate and the conveying mechanism from approaching is arranged between the pressing plate and the conveying mechanism.

Preferably, the module of stamping includes the mounting bracket, with mounting bracket along direction sliding fit's of stamping seal fixed part and being used for the drive the elevating system of seal fixed part downstream.

Preferably, the lifting mechanism includes an elastic reset device for preventing the stamp fixing portion from moving towards the input module and a pressing mechanism for pushing the stamp fixing portion to descend.

Preferably, the pressing mechanism comprises an electromagnet and a pressing connecting rod rotating with the mounting rack, the abutting end of the pressing connecting rod abuts against the stamp fixing part, and an iron core of the electromagnet and the pressing connecting rod are driven by a middle connecting rod to pull the pressing connecting rod to rotate so as to push the stamp fixing part to move towards the input module when the pressing connecting rod is powered on.

Preferably, the stamping device is arranged in the outer cover, and a plurality of maintenance ports are formed in the outer cover.

In order to achieve the second object, the present invention further provides a printer, which includes any one of the above multi-connected object paging stamping devices, and further includes a printing device, wherein an outlet of the printing device is arranged corresponding to an inlet of a cutting driving device of the multi-connected object paging stamping device. Because the multi-connected object paging stamping device has the technical effects, the printer with the multi-connected object paging stamping device also has corresponding technical effects.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a multi-connected object paging stamping device according to an embodiment of the present invention;

fig. 2 is a schematic view of a part of the structural installation of the multi-connected object paging stamping device provided in the embodiment of the present invention;

fig. 3 is a schematic structural view of an indexing conveying device according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a stamping module according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of an outer cover according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a printer with a multi-connected object paging stamping device according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a printer main body provided in an embodiment of the present invention.

The drawings are numbered as follows:

the automatic paper cutting machine comprises a cutting driving device 1, a conveying mechanism 2, a driving mechanism 3, a transmission cam 4, an elastic supporting device 5, a rack 6, a pressing plate 7, a paper twisting wheel 8, a first supply position 9, a paging device 10, an input module 11, a stamping module 12, an outer cover 13, a printer 14, an installation frame 121, a stamp fixing part 122, an electromagnet 123, a pressing connecting rod 124, a middle connecting rod 125, a left side plate 131, a right side plate 132, a maintenance plate 133, a rear plate 134, an upper plate 135, a hinge 136, a support 141, a printing and cutting integrated machine 142, a material box 143, a paper feeding separating shaft 144 and an edge cutting waste material box 145.

Detailed Description

The embodiment of the utility model discloses object paging equipment of stamping that ally oneself with more to solve the inconvenient problem of object stamping that ally oneself with more at present effectively.

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 7, fig. 1 is a schematic structural diagram of a multi-connected object paging stamping device according to an embodiment of the present invention; fig. 2 is a schematic view of a part of the structural installation of the multi-connected object paging stamping device provided in the embodiment of the present invention; fig. 3 is a schematic structural view of an index conveying device provided in an embodiment of the present invention; fig. 4 is a schematic structural diagram of a stamping module according to an embodiment of the present invention; fig. 5 is a schematic structural diagram of an outer cover according to an embodiment of the present invention; fig. 6 is a schematic structural diagram of a printer with a multi-connected object paging stamping device according to an embodiment of the present invention; fig. 7 is a schematic structural diagram of a printer main body according to an embodiment of the present invention.

In one embodiment, the present embodiment provides a multiple-object page-by-page stamping apparatus, in particular, where the multiple-object is generally a multiple invoice, the multiple-object is a plurality of pages of objects stacked one on top of the other and connected to each other, and the page objects are connected to each other, generally at edge portions. The multi-connected object paging stamping equipment comprises a cutting driving device 1, a transposition conveying device and a stamping device.

The cutting driving device 1 is used for cutting the input multi-connected object to remove the connection part between the page objects, so that the page objects are not connected, and the page objects can be conveniently separated page by page, wherein the cutting is generally to cut the edge parts at two sides of the multi-connected object. And the cut multi-connected objects can be output, wherein the cut multi-connected objects can be output while being cut, namely, the cut objects are cut in the conveying process, or the cut objects can be conveyed after being cut.

The transposition conveying device is used for receiving the multi-connected objects output by the cutting driving device 1 and conveying the multi-connected objects to the output end, namely after the multi-connected objects after cutting are led in, the transposition conveying device continues to convey the multi-connected objects to the conveying end of the transposition conveying device, so that other equipment can conveniently lead out part or all of the multi-connected objects, and the objects at the conveying end can also be output through the conveying device of the transposition conveying device. And the conveying end of the transposition conveying device can be driven to the first supply position 9 and the second supply position, so that the multiple objects at the conveying end can be positioned at the first supply position 9 or the second supply position according to requirements.

The input port of the stamping device is located at the first supply position 9, and a paging device is provided for introducing the multi-page objects one by one at the conveying end of the transposition conveying device located at the first supply position 9, where page-by-page introduction does not require introduction of each page object in the multi-page objects, but indicates introduction of one page or introduction of multiple pages of objects one by one. The input module 11 of the stamping device delivers the page objects introduced by the paging device to the stamping position for stamping by the stamping module 12. After the stamping is completed, it is preferably guided out through the input module 11. It should be noted that, the paging device needs to import the multi-page objects page by page, specifically: after the previous page object is sealed, the next page object is introduced by the paging device; the paging device may also import all the objects page by page to queue on the input module 11, so that the objects are sequentially transmitted to the stamping position by the input module 11 for stamping, and then output after stamping.

In the multi-connected object page-by-page stamping device, when in use, multi-connected objects such as invoices are sent to the cutting driving device 1, and are cut by the cutting driving device 1 so as to remove the connection relation among page objects. Then, the multi-connected objects are conveyed to a first supply position 9 through a transposition conveying device, so that the objects which are located above the stamping device and need to be stamped are led in page by page through a paging device of the stamping device, and the objects are led out after being stamped automatically. And the remaining objects that need not to be stamped can be driven to the second supply position through the conveying end of the transposition conveying device, so that the objects can be output from other places, and then the automatic stamping of one or more objects in the multi-connected object can be completed, the stamping speed is greatly increased, the stamped objects can be separated from the non-stamped objects, and the later-stage distinguishing is convenient.

Further, as described above, the transposition conveying device can convey the conveying end to the first supply position 9 or the second supply position as required, so that the multiple objects thereon can be located at the first supply position 9 or the second supply position. In particular, it may be a translational movement to accomplish the delivery. For the convenience of transposition conveying, the transposition conveying device preferably comprises a conveyor 2, a driving mechanism 3 and a transmission cam 4, wherein the input end of the conveying mechanism 2 is butted with the output end of the cutting driving device 1 to receive the multi-connected objects after cutting. Specifically, the conveying mechanism 2 may include a conveying belt mechanism and a conveying driving wheel disposed opposite to the conveying belt mechanism, and belt wheels of the conveying belt mechanism may be driven wheels.

The driving mechanism 3 is used for driving the transmission cam 4 to rotate, and the transmission cam 4 rotates to push the conveying mechanism 2 to swing, so that the output end of the conveyor 2 can move to the first feeding position 9 and the second feeding position. Specifically, if the underframe of the conveying mechanism 2 and the frame 6 of the multiple-object paging stamping device can be rotationally connected through a rotating shaft, and the wheel surface of the transmission cam 4 directly or indirectly abuts against the lower side of the conveying mechanism 2, so that the wheel surface forms an undulation change during continuous rotation, the following effects can be specifically formed: when the transmission cam 4 acts on the wheel surface of the conveying mechanism 2 to ascend, the conveying mechanism 2 is pushed to rotate upwards so that the conveying end enters a first supply position 9; when the transmission cam 4 acts on the wheel surface of the conveying mechanism 2 to descend, the conveying mechanism 2 rotates downwards under the action of gravity, so that the conveying end enters a second feeding position, or the conveying surface of the conveying mechanism 2 is horizontally arranged to receive the object input by the cutting driving device 1. Wherein the upward rotation and the downward rotation form a kind of swing.

The paging device can adopt a paper pickup wheel 8, and at the moment, a paging object at the conveying end of the conveying mechanism 2 is required to be abutted against the paper pickup wheel 8, so that the paper pickup wheel 8 can page and take out the object. In order to better control the paper twisting effect of the paper twisting wheel 8, an elastic supporting device 5 is preferably arranged between the transmission cam 4 and the conveying mechanism 2, so as to push the multiple objects on the conveying end of the conveying mechanism 2 at the first feeding position 9 to abut against the paper twisting wheel 8, so that the contact force between the multiple objects on the conveying end and the wheel surface of the paper twisting wheel 8 can be better controlled through the elastic supporting device 5.

Specifically, in order to facilitate the driving of the transmission cam 4, it is preferable to further include a pressing plate 7 rotatably connected to the conveying mechanism 2, where it is preferable that the pressing plate 7, the conveying mechanism 2 and the frame 6 are rotatably connected through the same rotating shaft, and the pressing plate 7 abuts against the wheel surface of the transmission cam 4, and an elastic supporting device 5 for preventing the pressing plate 7 and the conveying mechanism 2 from approaching each other is disposed between the pressing plate 7 and the conveying mechanism 2. So that the drive cam 4 transmits the thrust to the elastic support means 5 and thus to the conveying mechanism 2, wherein the elastic support means 5 are preferably elastic compression means, such as compression springs or compression elastic members. To avoid random wobbling, the elastic support means 5 preferably has a certain pre-tension to avoid random compression.

In order to prevent the pickup roller 8 from picking up two or more pages at once, it is preferable that the pickup roller 8 further includes a sorter 10 abutting against the pickup roller 8, and the sorter 10 prevents the pickup roller 8 from guiding each page below the upper page. The specific paging device 10 is like a wedge, and is pushed against the paper pickup wheel 8 through an elastic device, when the paper picked up by the paper pickup wheel 8 is pressed against the paging device 10, the paging device 10 blocks all the page objects except the object of the top page. Specifically, the paging device structure can also refer to the paging device of the printer in the prior art. For better driving, it is preferable here that the frictional force f1 between the pickup roller 8 and the attached sheet object is larger than the frictional force f2 between the adjacent sheet objects; the frictional force f2 between the adjacent page objects is larger than the frictional force f3 between the objects and the pager 10.

For the convenience of stamping, the stamping module 12 preferably includes a mounting frame 121, a stamp fixing portion 122 slidably engaged with the mounting frame 121 along the stamping direction, and a lifting mechanism for driving the stamp fixing portion 122 to move downward. The mounting rack 121 is connected to the frame 6 of the multi-connected object paging stamping device, and is generally fixedly mounted therebetween. The stamp fixing portion 122 is used for mounting a stamp, and the stamp position should correspond to the input module 11, so that the stamp face of the stamp faces the conveying face of the input module 11, and further faces the object to be printed on the conveying face.

Wherein the lifting mechanism is a telescopic driving structure, such as an electric cylinder, a pneumatic telescopic cylinder and the like. For driving convenience, it is preferable that an elastic return device for preventing the stamp fixing portion 122 from moving toward the input module 11 and a pressing mechanism for pushing the stamp fixing portion 122 to descend are included, wherein the pressing mechanism is an electromagnetic driving mechanism, a combined structure of a slider-crank mechanism and a motor, or the like. Specifically, the pressing mechanism may include an electromagnet 123 and a pressing link 124 rotating with the mounting frame 121, wherein a pressing end of the pressing link 124 abuts against the stamp fixing portion 122, and an iron core of the electromagnet 123 and the pressing link 124 are driven by an intermediate link 125 to pull the pressing link 124 to rotate to push the stamp fixing portion 122 to move toward the input module 11 when the power is turned on. Wherein an input module 11, such as a conveyor belt mechanism. Specifically, the upper end of the pressing link 124 is rotatably connected to the mounting frame 121, the lower end of the pressing link 124 is provided with a roller and abuts against the stamp fixing portion 122, or abuts against the stamp, one end of the middle link 125 is hinged to the middle of the pressing link 124, and the other end of the middle link is hinged to the iron core, when the electric power is applied, the iron core moves in a direction away from the pressing link 124 under the action of electromagnetic force, and then the lower end of the pressing link 124 is pulled to rotate in a corresponding direction through the middle link 125, and in the rotating process, the pressing link 124 has a tendency of moving downward, so as to form a downward driving force on the stamp fixing portion 122.

Further, in order to better protect the structure, it is preferable that the cutting device further comprises a housing 13, and the stamping device is located in the housing 13, of course, the cutting driving device 1 and the transposition conveying device can also be located in the housing 13, and the housing 13 is provided with a plurality of maintenance openings. Specifically, the outer cover 13 includes, for example, a left side plate 131, a right side plate 132, a maintenance plate 133, a rear plate 134, an upper plate 135, and hinges 136. For maintenance, a maintenance opening is formed in each of the left and right side plates 131 and 132, and a maintenance plate 133 is installed. The upper plate 135 is connected to the rear plate 134 by hinges 136 so that the upper plate 135 can be opened to form a service opening to increase a service space.

In practical application, the cutting device can be assembled in a printer for use, namely, the cutting device is butted with a multi-connected object printer, such as a multi-connected invoice printer, and at the moment, a ticket outlet of the multi-connected invoice printer is butted with a feeding hole of a cutting driving device. The printer mainly comprises a support 141, a printing and cutting integrated machine 142, a material box 143, a paper feeding separation shaft 144 and an edge cutting waste material box 145. The printing and cutting integrated machine 142 is fixed above the bracket 141, and the material box 143 is arranged at the rear side of the bracket 141 and used for placing invoices; the paper feeding separation shaft 144 is installed between the printing and cutting integrated machine 142 and the material box 143 and used for preferentially separating the adhered invoices.

According to the structures, particularly, a controller can be further arranged to control the components according to a set program so as to better realize the printing of multiple pages of invoices. Specifically, the control may be sequentially controlled as follows:

step 100: and controlling the cutting driving device 1 to start so as to cut and output the multi-connected object.

It should be noted that, the cutting driving device 1 may be started correspondingly according to a detection result of the incoming material detection device, or a start instruction input by an external mechanism, or a control instruction transmitted by the printer.

Step 200: and controlling the conveying mechanism 2 to start to convey the multi-connected objects obtained from the cutting driving device 1 after cutting to a conveying end.

The starting of step 200 may be started simultaneously with step 100, or may be started later, and if the starting is started later, the incoming material detection device may be similarly set. Here, it is preferable to start the operation synchronously and maintain the constant rotation state. The conveying mechanism 2 is as described above, and generally the conveying mechanism 2 is a conveyor belt. Whether the cut multi-connected object is located at the conveying end can be determined through the set time length and the conveying time length of the conveying mechanism, and can also be determined through other modes.

Step 300: and controlling the driving mechanism to start so as to push the conveying end of the conveying mechanism to the first supply position and then stop pushing.

Before that, as in step 200, the driving mechanism preferably drives the conveying surface of the conveying mechanism to be horizontal, so as to better convey the multiple objects and avoid the problem that the page objects in the multiple objects are staggered back and forth. When the conveying mechanism is detected to convey the multi-connected object to the conveying end, the driving mechanism drives the conveying mechanism to rotate upwards through the transmission cam, so that the conveying end of the conveying mechanism is located at the first supply position, and the multi-connected object on the conveying end is abutted to the paper rubbing wheel.

Step 400: the paging device and the input module 11 are controlled to start, so that the paging device introduces each page object to be printed in the multi-connected objects at the conveying end of the conveying mechanism 2 into the input module 11 one by one, and the input module 11 sequentially conveys the introduced objects to the stamping position and outputs the objects after stamping by the stamping device.

It should be noted here that the controller obtains the corresponding movement duration or movement stroke according to the operation speed of the paging device according to the number of the target pages needing to be sealed and input from the outside. For example, if the pickup wheel 8 is rotated continuously, the pickup amount can be controlled by the length or angle of rotation of the pickup wheel 8 when plural corresponding objects are picked up; when the pickup wheel 8 rotates discontinuously, the pickup quantity can be controlled by the rotation angle of the pickup wheel 8 when picking up a plurality of corresponding objects. The starting frequency duration of the stamping module 12 should correspond to the duration of the pickup interval of the pickup wheel 8. It should be noted that the input module 11 delivers the imported object to the stamping position, should stay for a set time length to ensure that the stamping is completed, and then continues to deliver the stamped object to be output and imported into the object to be stamped, which is imported by the paging device.

Step 400: the driving mechanism 3 is activated to push the delivery end of the delivery mechanism 2 to a second feed position to derive the remaining part of the multi-connected object.

In the second supply position, the delivery end objects of the delivery means 2 can be removed by further sorting devices, or by a pusher device, wherein the delivery means 2 is preferably activated again to deliver the output by the delivery means 2. The drive mechanism 3 then continues to rotate so that the conveying surface of the conveying mechanism 2 moves in a horizontal state.

Based on the multi-connected object paging stamping device provided in the above embodiment, the invention further provides a printer, which includes any one of the multi-connected object paging stamping devices in the above embodiments, and further includes a printing device, wherein an outlet of the printing device is arranged corresponding to an inlet of a cutting driving device of the multi-connected object paging stamping device. Since the printer adopts the multi-object paging stamping device in the above embodiment, please refer to the above embodiment for the beneficial effect of the printer.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A multi-connected object paging stamping device is characterized by comprising:

the cutting driving device is used for cutting the input multi-connected objects to remove the connecting parts among all the page objects and outputting the cut multi-connected objects;

the transposition conveying device is used for receiving the multi-connected object output by the cutting driving device and conveying the multi-connected object to an output end, and the conveying end of the transposition conveying device can be driven to a first supply position and a second supply position;

and an input port of the stamping device is positioned at the first supply position and is provided with a paging device for leading in the multi-connected objects at the conveying end of the transposition conveying device page by page, and an input module of the stamping device conveys the page objects led in by the paging device to the stamping position for stamping through a stamping module.

2. The multi-object paging stamping device according to claim 1, wherein the transposition conveying device comprises a conveying mechanism, a driving mechanism and a transmission cam, an input end of the conveying mechanism is in butt joint with an output end of the cutting driving device, the driving mechanism is used for driving the transmission cam to rotate, and the transmission cam rotates to push the conveying mechanism to swing so that the output end of the conveying mechanism can move to the first supply position and the second supply position.

3. The multi-object paging stamping device according to claim 2, wherein the paging device comprises a paper pickup wheel, and an elastic supporting device is arranged between the transmission cam and the conveying mechanism for pushing the multi-object on the conveying end of the conveying mechanism to abut against the paper pickup wheel at the first supply position.

4. The multi-connected object paging stamping device according to claim 3, further comprising a paging device abutting against the pickup roller, wherein the paging device is used for blocking the page objects on the lower side of the upper page object introduced by the pickup roller.

5. The multi-connected object paging stamping device according to claim 4, further comprising a pressing plate rotationally connected with the conveying mechanism, wherein the pressing plate abuts against a wheel surface of the transmission cam, and an elastic supporting device for preventing the pressing plate and the conveying mechanism from approaching is arranged between the pressing plate and the conveying mechanism.

6. The multi-connected object paging stamping device according to any one of claims 1 to 5, wherein the stamping module comprises a mounting frame, a stamp fixing part in sliding fit with the mounting frame along a stamping direction, and a lifting mechanism for driving the stamp fixing part to move downwards.

7. The multi-connected object paging stamping device according to claim 6, wherein the lifting mechanism includes an elastic reset device for preventing the stamp fixing part from moving to the input module and a pressing mechanism for pushing the stamp fixing part to descend.

8. The multi-connected object paging stamping device according to claim 7, wherein the pressing mechanism includes an electromagnet and a pressing link rotating with the mounting rack, a pressing end of the pressing link abuts against the stamp fixing portion, an iron core of the electromagnet and the pressing link are driven by an intermediate link to pull the pressing link to rotate to push the stamp fixing portion to move towards the input module when being powered on.

9. The multi-connected object paging stamping device according to claim 8, further comprising a housing, wherein the stamping device is located in the housing, and a plurality of maintenance ports are formed in the housing.

10. A printer comprising a printing device, and further comprising the multiple object sorting and sealing device according to any one of claims 1 to 9, wherein an outlet of the printing device is arranged corresponding to an inlet of a cutting driving device of the multiple object sorting and sealing device.

Images