CN112079172A

CN112079172A - Paper processing assembly and printing equipment

Info

Publication number: CN112079172A
Application number: CN202010888179.4A
Authority: CN
Inventors: 张俊; 王雪源; 罗远军; 刘玲
Original assignee: Yuanguang Software Co Ltd
Current assignee: Yuanguang Software Co Ltd
Priority date: 2020-08-28
Filing date: 2020-08-28
Publication date: 2020-12-15

Abstract

The application discloses paper processing assembly and printing apparatus, paper processing assembly are applied to the printer, and paper processing assembly includes: a fixing plate; a paper discharge guide rail arranged along the direction in which the paper outlet of the printer extends to guide the paper output by the printer; the paper discharge unit comprises a paper collecting container, a driving part, a transmission component and a fixing component for fixing the transmission component, the fixing component is fixedly connected with the first end face of a fixing plate, the paper collecting container is fixedly connected with the second end face of the fixing plate, the driving end of the transmission component is connected with the output end of the driving part, the paper input end of the transmission component is communicated with the paper output end of a paper discharge guide rail, the fixed end of the transmission component is connected with the fixing component, the transmission component outputs paper output by the paper discharge guide rail to the paper collecting container under the driving of the driving part, wherein the first end face is perpendicular to the second end face, the paper processing component and the printing equipment can improve the processing efficiency of the paper in batches.

Description

Paper processing assembly and printing equipment

Technical Field

The application relates to the technical field of automation equipment, in particular to a paper processing assembly and printing equipment.

Background

In the field of paper processing apparatuses, the processing of printed paper is usually delivered directly to the user for removal. However, in the existing office needs, batch printing is often required, and meanwhile, next processing operation is required to be performed on the paper obtained by batch printing, so that the paper obtained by printing needs to be put into a designated paper storage collection container so as to be subjected to the next processing operation. However, in the prior art, when the printed paper needs to be put into the designated paper storage collection container for further processing operation, the printed paper is mostly manually put into the designated paper storage collection container by the user, which results in slow operation efficiency and affects user experience, and thus a technical solution capable of solving the above technical problems is needed.

Disclosure of Invention

The technical problem that this application mainly solved provides a paper processing subassembly and printing apparatus, can improve the efficiency of printing in batches and carrying out operation next step.

In order to solve the technical problem, the application adopts a technical scheme that: there is provided a sheet handling assembly for use with a printer, the sheet handling assembly comprising:

a fixing plate;

a paper discharge guide provided along a direction in which the paper discharge port of the printer extends, for guiding paper to be discharged from the printer;

the paper discharge unit comprises a paper collection container, a driving part, a transmission component and a fixing component for fixing the transmission component, wherein the fixing component is fixedly connected with a first end face of the fixing plate, the paper collection container is fixedly connected with a second end face of the fixing plate, a driving end of the transmission component is connected with an output end of the driving part, a paper input end of the transmission component is communicated with a paper output end of the paper discharge guide rail, a fixed end of the transmission component is connected with the fixing component, the transmission component is driven by the driving part to output paper output by the paper discharge guide rail to the paper collection container, and the first end face is perpendicular to the second end face.

In order to solve the above technical problem, another technical solution adopted by the present application is: providing a printing apparatus comprising a paper handling assembly, a printer chassis, and a printer; the paper processing assembly is the paper processing assembly, the printer is arranged on the printer base, and the third end face of the fixing plate in the paper processing assembly is fixedly connected with the end face, close to the extension direction of the paper outlet of the printer, in the printer.

The beneficial effect of this application is: be different from prior art's condition, the paper processing subassembly that this application provided, through the paper discharge guide rail that the direction that extends along printer exit slot set up, can lead to the paper of printer output betterly, and need not to change the gesture of paper at the in-process to the paper direction, and through transmission assembly and the cooperation of paper discharge guide rail, further provide the power that continues to advance for the paper of printer output, make the gesture that the paper can set for exported to the paper collecting container in, and then realize handling batch paper fast, make batch paper can realize being imported to the paper collecting container with the gesture of setting for, need not the user and monitor often, can improve the efficiency of printing in batches and carrying out operation on next step, and then improve the operating efficiency to paper processing betterly.

Drawings

FIG. 1 is a schematic structural diagram of one embodiment of a sheet handling assembly of the present application;

fig. 2 is a schematic structural diagram of an embodiment of a printing apparatus according to the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application. It is to be understood that the specific embodiments described herein are merely illustrative of the application and are not limiting of the application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

In the description of the present application, "plurality" means at least two, e.g., two, three, etc., unless explicitly specifically limited otherwise. Furthermore, the terms "include" and "have," as well as any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or apparatus.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

Referring to fig. 1 and fig. 2 together, fig. 1 is a schematic structural diagram of an embodiment of a paper processing assembly of the present application, fig. 2 is a schematic view of an application of the paper processing assembly of the present application, and specifically, fig. 2 is a schematic structural diagram of an embodiment of a printing apparatus of the present application. In the present embodiment, the paper handling assembly 100 provided in the present application is applied to the printer 300, and the paper handling assembly 100 includes the fixing plate 50, the paper discharge guide 10, and the paper discharge unit 20.

The fixing plate 50 is used to fix other structures in the sheet processing assembly 100. As in the present embodiment, the fixing plate 50 is used to fix the paper discharge guide 10 and the paper discharge unit 20, i.e., the paper discharge guide 10 and the paper discharge unit 20 are fixedly coupled to the fixing plate 50, respectively.

Further, the fixing plate 50 is a rectangular body. It should be noted that, the size and shape of the fixing plate 50 are set to match the printer 300, and therefore, the size and shape of the fixing plate 50 are not particularly limited herein, and are specifically set according to the actual application requirements of the paper processing assembly 100.

The paper guide is provided along a direction in which the paper outlet of the printer 300 extends to guide the paper output from the printer 300 (not shown in fig. 1) so that the paper output from the printer 300 is guided to the paper collection container 21. The size of the paper guide is not limited herein, and is specifically set to the size of the paper discharge port of the printer 300.

Further, the size of the paper discharge guide 10 in the first direction is adjustable to match different sizes of paper, thereby providing more precise guidance for different sizes of paper. If the batch of paper selected by the user is A4 paper, the size of the paper discharge guide 10 is adjusted to the size of A4 paper; when the user prints A5 paper, the size of the paper discharge rail 10 can be adjusted to the size of A5 paper. The first direction is perpendicular to the extending direction of the paper outlet.

Further, the position of the sheet in the first direction can be limited by adding a stopper (not shown) that can be adjustably moved in the first direction to the sheet discharge guide 10. The limiting member is clamped on the paper discharge guide rail 10, and the limiting member can move along a first direction under the pushing of a user so as to limit the paper with different sizes in the first direction.

Still further, in an embodiment, the paper discharge guide 10 includes an upper paper discharge plate 11 and a lower paper discharge plate 12 disposed at an interval, the upper paper discharge plate 11 and the lower paper discharge plate 12 are mirror-surface stainless steel structures processed by sheet metal, friction between the mirror-surface stainless steel structures and paper is small, and the upper paper discharge plate 11 and the lower paper discharge plate 12 cooperate with each other to achieve better guiding of the paper, so that the paper is quickly transmitted to the transmission assembly 23 by means of power provided by the printer 300.

When the size of the paper discharge guide 10 in the first direction is adjustable and the paper discharge guide 10 includes the paper discharge upper plate 11 and the paper discharge lower plate 12 which are oppositely disposed at an interval, the paper can be limited in the first direction by disposing the limiting member on the paper discharge lower plate 12.

The sheet discharge unit 20 includes a sheet collecting container 21, a driving member 30, a driving assembly 23, and a fixing assembly for fixing the driving assembly 23. The fixing assembly is fixedly connected with a first end face of the fixing plate 50, the paper collecting container 21 is fixedly connected with a second end face of the fixing plate 50, a driving end of the transmission assembly 23 is connected with an output end of the driving part 30, a paper input end of the transmission assembly 23 is communicated with a paper output end of the paper discharge guide rail 10, a fixed end of the transmission assembly 23 is connected with the fixing assembly, the transmission assembly 23 outputs paper output by the paper discharge guide rail 10 to the paper collecting container 21 under the driving of the driving part 30, and the first end face is perpendicular to the second end face. Further, the driving member 30 may be connected to the sheet discharging unit 20 through the driving member base 40. Further, the driving member base 40 is fixedly connected to an end surface of the paper discharge housing 221 for fixing the driving member 30, and the specific position of the driving member 30 can be adjusted and set according to the layout requirement of the product.

The second end face of the fixing plate 50 is an end face opposite to the end face connected to the printer 300, and the first end face of the fixing plate 50 is an end face perpendicular to the second end face of the fixing plate 50 and deviating from the ground direction.

Further, in another embodiment, an end surface of the fixing plate 50 perpendicular to both the first end surface and the second end surface is defined as a fourth end surface, and in order to better fix the fixing assembly, the fixing assembly is further fixed to the fourth end surface by a connecting member, so as to better fix the fixing assembly.

Furthermore, each fixing plate 50 includes two fourth end surfaces, and correspondingly, the two fourth end surfaces are opposite end surfaces, and the fixing assembly is fixedly connected with each fourth end surface through a connecting member, so as to fix the fixing assembly better. When the fixing plate 50 is a rectangular parallelepiped, the fixing assembly is correspondingly fixedly connected to each fourth end surface through a longer connecting plate. Wherein, the connecting plate is used for extending the fourth end surface to be connected with the fixed component.

The paper collection container 21 is used for collecting paper output by the transmission assembly 23. The size of the sheet collection container 21 is not limited, and is specifically adjusted and set in accordance with the actual application environment of the sheet processing assembly 100.

The transmission assembly 23 is used for transmitting the paper output by the paper output guide 10, so that the paper output by the paper output guide 10 is input to the paper collection container 21 in a set posture, and further, when a batch of paper is processed, the batch of paper can be quickly input to the paper collection container 21 in a set posture, and further, the working efficiency of processing the paper is improved. The paper input end of the transmission assembly 23 is communicated with the paper output end of the paper discharge guide rail 10, and then the paper can enter the transmission assembly 23 after passing through the paper discharge guide rail 10, so that the driving member 30 can move forward continuously by the power output by the transmission assembly 23, and further can be input to the paper collection container 21.

In the embodiment corresponding to fig. 1, the paper sheet handling assembly 100 provided in the present application, through the paper discharge guide 10 disposed along the direction in which the paper outlet of the printer 300 extends, can better guide the paper sheets output by the printer 300, and does not need to change the posture of the paper sheets in the process of guiding the paper sheets, and through the cooperation of the transmission assembly 23 and the paper discharge guide 10, further provides the power for the paper sheets output by the printer 300 to continue to advance, so that the posture that the paper sheets can be set is output to the paper sheet collection container 21, thereby realizing fast handling of batch paper sheets, enabling batch paper sheets to be input to the paper sheet collection container 21 in the set posture, and without the need of monitoring by a user from time to time, improving the efficiency of performing next operation on batch printing, and further better improving the operation efficiency of paper sheet handling.

With continued reference to fig. 1, the fixing assembly includes a paper discharge housing 221, and a first paper discharge fixing plate 222 and a second paper discharge fixing plate 223 disposed at an interval opposite to each other. The discharge housing 221 is disposed between the first discharge fixing plate 222 and the second discharge fixing plate 223, and is fixedly connected to the first discharge fixing plate 222 and the second discharge fixing plate 223 to fixedly limit the discharge housing 221 in the first direction. The end face of the paper discharge housing 221 opposite to the paper discharge guide rail 10 is correspondingly provided with a notch for paper to pass through, the notch extends along the first direction, and the notch arranged on the paper discharge housing 221 is communicated with the paper input end of the transmission assembly 23 and the paper output end of the paper discharge guide rail 10.

Further, the sheet discharge housing 221 further includes an end surface extending in a plane direction parallel to the fourth end surface of the fixed plate 50. Further, the first and second

discharge fixing plates

222 and 223 are fixedly coupled to the fourth end surface of the fixing plate 50, respectively, to fix the structure included in the fixing assembly at the fixing plate 50.

Further, the paper discharge housing 221 includes a first connection plate 2211, a second connection plate 2212, and a third connection plate 2213. The first connecting plate 2211 and the second connecting plate 2212 are respectively connected to the third connecting plate 2213 vertically, the first connecting plate 2211 and the second connecting plate 2212 are spaced apart from each other, and notches for paper to pass through are correspondingly formed in the end face of the third connecting plate 2213 opposite to the paper discharge guide 10. Wherein the first and

second connection plates

2211 and 2212 extend in the direction of advancing the sheet, and the driving assembly 23 is disposed between the first and

second connection plates

2211 and 2212. Specifically, in the current embodiment, the first connection plate 2211 is connected to one end of the driving assembly 23, and the second connection plate 2212 is connected to the other end of the driving assembly 23, so as to fix the driving assembly 23 in the first direction.

Still further, the paper discharge housing 221 includes a first connecting plate 2211, a second connecting plate 2212, a third connecting plate 2213 and a fourth connecting plate, the first connecting plate 2211 and the second connecting plate 2212 are respectively connected to the third connecting plate 2213 perpendicularly, the first connecting plate 2211 and the second connecting plate 2212 are arranged at intervals, the fourth connecting plate is connected to the first connecting plate 2211, the second connecting plate 2212 and the third connecting plate 2213 perpendicularly, the fourth connecting plate extends along the direction of paper output, and an end face of the fourth connecting plate parallel to the direction of paper output is fixedly connected to the first end face of the fixing plate 50.

Further, in an embodiment, when the size of the paper discharge guide 10 along the first direction is adjustable, the size of the notch opened on the end surface of the paper discharge housing 221 opposite to the paper discharge guide 10 along the first direction is based on the maximum size of the paper discharge guide 10 along the first direction.

Further, when the size of the paper discharge guide 10 along the first direction can be adjusted according to the size of the paper, the size of the notch formed on the end surface of the paper discharge housing 221 opposite to the paper discharge guide 10 along the first direction is correspondingly set to be adjustable so as to follow the size of the paper in the first direction for adjustment, thereby providing driving force for the paper, better ensuring the posture of the paper with different sizes, and enabling the paper with different sizes to be accurately output to the paper collection container 21.

In this case, it is possible to change the size of the slot in the first direction by adding a slider (not shown) to both ends of the slot in the sheet discharge housing 221 in the first direction and moving the slider when the size of the slot in the first direction needs to be changed. The sliding part can be relatively fixed with the paper discharge shell 221 through the fastening part, when the size of the notch is changed by a user, the fastening part can be disassembled, then the sliding part is moved to the position which meets the size of paper and can be passed by the paper along the notch, and then the fastening part fixes the sliding part with the paper discharge shell 221, so that the size of the notch is matched with the size of the paper. Note that, when the sizes of the notch in the paper discharge case 221 and the area through which the paper is fed by the paper discharge guide 10 in the first direction are adjusted, the sizes are adjusted in accordance with the position in the first direction at which the paper is discharged by the printer 300, so that the paper output by the printer 300 can smoothly pass through.

With continued reference to fig. 1, the transmission assembly 23 includes a first roller assembly 231 and a second roller assembly 232 disposed diametrically opposite one another. The first roller assembly 231 and the second roller assembly 232 are respectively fixedly connected with the first paper discharge fixing plate 222 and the second paper discharge fixing plate 223, at least one of the first roller assembly 231 and the second roller assembly 232 is connected with the output end of the driving member 30, so that the first roller assembly 231 and the second roller assembly 232 can rotate relatively under the driving of the driving member 30 to transmit the paper output by the paper discharge guide 10, and transmit the paper output by the paper discharge guide 10 to the paper collection container 21. It is understood that, in other embodiments, when the sheet processing assembly 100 includes two driving members 30, the first roller assembly 231 and the second roller assembly 232 are both active roller assemblies, the first roller assembly 231 and the second roller assembly 232 are driven by the respective driving members 30 connected thereto, and the driving direction of the driving members 30 is preset according to the direction of the sheet advance.

As illustrated in fig. 1, both ends of the first roller assembly 231 are respectively connected to the first discharge fixing plate 222 and the second discharge fixing plate 223, both ends of the second roller assembly 232 are respectively connected to the first discharge fixing plate 222 and the second discharge fixing plate 223, and a distance between the first roller assembly 231 and the second roller assembly 232 in the radial direction is matched with a thickness of the paper, specifically, is set at a distance capable of providing a forward driving force for the paper.

Further, one of the first roller assembly 231 and the second roller assembly 232 is connected to the output end of the driving member 30, i.e., one of the first roller assembly 231 and the second roller assembly 232 is a driving roller assembly and the other is a driven roller assembly. For example, in one embodiment, the second roller assembly 232 is connected to the output end of the driving member 30, the second roller assembly 232 is directly driven by the driving member 30, and the first roller assembly 231 follows the second roller assembly 232 to rotate under the driving of the second roller assembly 232. The first roller assembly 231 and the second roller assembly 232 are vertically and parallelly disposed, and the first roller assembly 231 may be disposed above and set as a driven roller assembly, and the second roller assembly 232 may be disposed below and set as a driving roller assembly.

The driving roller assembly is a roller assembly directly connected to the output end of the driving member 30, and the driven roller assembly is a roller assembly driven by other roller assemblies or the driving assembly 23. Specifically, when the second roller assembly 232 is connected to the output end of the driving member 30, the second roller assembly 232 is driven by the driving member 30 to rotate in a direction capable of driving the paper to advance, so as to drive the first roller assembly 231 to rotate along with the second roller assembly 232, and further drive the paper output by the paper output guide 10, so that the paper is output to the paper collection container 21.

Further, when the second roller assembly 232 is a driving roller assembly and the first roller assembly 231 is a driven roller assembly, the first roller assembly 231 includes a shaft snap spring 2311, a first connecting shaft 2312 and a first roller 2313 sleeved on the first connecting shaft 2312, the shaft snap spring 2311 is used for axially fixing the first roller 2313 on the first connecting shaft 2312, the second roller assembly 232 includes a bearing 2322, a second connecting shaft 2321 and a second roller 2323 sleeved on the second connecting shaft 2321, the bearing 2322 connects the second roller 2323 with the second connecting shaft 2321, and the second roller 2323 is rotatably connected with the second connecting shaft 2321 through the bearing 2322.

In another embodiment, when the second roller assembly 232 and the first roller assembly 231 are both active roller assemblies, the first roller assembly 231 comprises: the second roller assembly 232 includes a bearing 2322, a second connecting shaft 2321, and a second roller 2323 sleeved on the second connecting shaft 2321, the bearing 2322 connects the second roller 2323 with the second connecting shaft 2321, and the second roller 2323 is rotatably connected with the second connecting shaft 2321 through the bearing 2322.

The sheet discharge unit 20 further includes a coupling 24, and one end of the second connecting shaft 2321 or the first connecting shaft 2312 is connected to the output end of the driving member 30 through the coupling 24. The coupling 24 is used to connect the first connecting shaft 2312 with the driving member 30, or to connect the second connecting shaft 2321 with the driving member 30. Wherein the drive member 30 comprises an electric motor.

Further, in another embodiment, when two driving members 30 are included in the sheet processing assembly 100, correspondingly, the sheet discharging unit 20 further includes two couplers. One coupler is connected with one driving member 30 and the first connecting shaft 2312, the other coupler is connected with the other driving member 30 and the second connecting shaft 2321, the first connecting shaft 2312 and the second connecting shaft 2321 are driven by the two driving members 30 to rotate, and further the first roller 2313 and the second roller 2323 are respectively driven to rotate oppositely, so that paper is driven to be output to the paper collecting container 21. The direction of rotation of the two driving members 30 is based on the direction in which the paper can be driven to advance, and is not limited herein.

The fixing assembly further includes a clamp spring 224 connecting the second roller assembly 232 and the first paper discharge fixing plate 222, and the clamp spring 224 is used for fixing the second roller assembly 232 in the axial direction. Further, in another embodiment, when the first roller assembly 231 is also an active roller assembly, the fixing assembly further includes a clamp spring 224 connecting the first roller assembly 231 and the first paper discharge fixing plate 222. In other embodiments, when the driving member 30 is disposed at one side of the first discharge fixing plate 222, the clamp spring 224 in the fixing assembly is used to connect the second discharge fixing plate 223 and the first roller assembly 231 (the second roller assembly 232).

The paper processing assembly 100 provided in fig. 1 of the present application, through the mutual cooperation of the upper paper discharge plate 11 and the lower paper discharge plate 12 in the paper discharge guide 10, the paper output from the output port of the printer 300 is guided, and then the paper is input to the transmission assembly 23 through the slot on the paper discharge housing 221, and then through the cooperation of the first roller assembly 231 and the second roller assembly 232 in the transmission assembly 23, further providing forward power for the paper, and then the paper is output to the paper collection container 21, when the paper after batch printing needs to be processed, the efficiency of performing the next operation in batch printing is improved, and further the operation efficiency for paper processing is improved well.

Referring to fig. 2, fig. 2 is a schematic structural diagram of an embodiment of a printing apparatus according to the present application.

In the present embodiment, the printing apparatus 1000 provided by the present application includes a sheet handling assembly 100, a printer chassis 200, and a printer 300. The paper processing assembly 100 is the paper processing assembly 100 described in any one of the embodiments corresponding to fig. 1 and fig. 1, the printer 300 is disposed on the printer base 200, and the third end face of the fixing plate 50 in the paper processing assembly 100 is fixedly connected to the end face of the printer 300 in the extension direction close to the paper outlet of the printer 300. The third end surface of the fixing plate 50 in the sheet processing assembly 100 is an end surface opposite to the second end surface of the fixing plate 50.

Further, the printing apparatus 1000 further includes a printer fixing plate 400, a first end surface of the printer fixing plate 400 is connected with an end surface of the printer 300 far from the paper processing assembly 100, and a second end surface of the printer fixing plate 400 is connected with the printer base 200, the first end surface of the printer fixing plate 400 and the second end surface of the printer fixing plate 400 being perpendicular to each other. The printer fixing plate 400 is used to further fix the printer 300, so as to prevent the printer 300 from being displaced.

The application provides a printing apparatus 1000, through increasing paper processing subassembly 100, can better realize handling the paper after the batch processing printing, improved the efficiency of printing in batches and carrying out operation on next step, need not the user and look after often, and then better improvement is to the operating efficiency of paper processing.

The above description is only for the purpose of illustrating embodiments of the present application and is not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings of the present application or are directly or indirectly applied to other related technical fields, are also included in the scope of the present application.

Claims

1. A paper handling assembly for use with a printer, the paper handling assembly comprising:

a fixing plate;

2. The paper handling assembly of claim 1, wherein the fixing assembly includes a paper discharge housing, and a first paper discharge fixing plate and a second paper discharge fixing plate which are oppositely spaced, the paper discharge housing is disposed between the first paper discharge fixing plate and the second paper discharge fixing plate, and a notch for the paper to pass through is correspondingly formed on an end surface of the paper discharge housing opposite to the paper discharge guide.

3. The paper handling assembly of claim 2, wherein the transmission assembly includes a first roller assembly and a second roller assembly disposed opposite to each other in the radial direction, the first roller assembly and the second roller assembly are respectively connected to the first paper discharge fixing plate and the second paper discharge fixing plate, at least one of the first roller assembly and the second roller assembly is connected to the output end of the driving member, so that the first roller assembly and the second roller assembly can rotate relatively under the driving of the driving member to transmit the paper output from the paper discharge guide to the paper collection container.

4. The paper processing assembly of claim 3, wherein the first roller assembly includes a shaft clamp spring, a first connecting shaft, and a first roller sleeved on the first connecting shaft, the shaft clamp spring being configured to axially secure the first roller to the first connecting shaft.

5. The paper processing assembly of claim 3, wherein the second roller assembly includes a bearing, a second connecting shaft, and a second roller sleeved on the second connecting shaft, the bearing connects the second roller and the second connecting shaft, and the second roller is rotatably connected to the second connecting shaft through the bearing.

6. The sheet handling assembly of claim 5, wherein the sheet discharge unit further comprises a coupler, and one end of the second or first link shaft is connected to the output end of the driving member through the coupler.

7. The sheet handling assembly of claim 3, wherein the fixing assembly further comprises a clamp spring connecting the second roller assembly to the first discharge fixing plate, the clamp spring being configured to axially fix the second roller assembly.

8. The paper handling assembly of claim 1, wherein the paper ejection guide includes an upper paper ejection plate and a lower paper ejection plate spaced apart from each other in a direction perpendicular to the paper surface, the upper paper ejection plate and the lower paper ejection plate being of sheet-metal-machined mirror-finished stainless steel construction.

9. A printing apparatus, comprising a paper handling assembly, a printer base, and a printer; the paper processing assembly is the paper processing assembly according to any one of claims 1 to 8, the printer is arranged on the printer base, and the third end face of the fixing plate in the paper processing assembly is fixedly connected with the end face of the printer, which is close to the extension direction of the paper outlet of the printer.

10. The printing apparatus of claim 9, further comprising a printer retaining plate, a first end face of the printer retaining plate being connected to an end face of the printer distal from the paper handling assembly and a second end face of the printer retaining plate being connected to the printer base, the first end face of the printer retaining plate and the second end face of the printer retaining plate being perpendicular to each other.