CN221113265U - Printing, stamping and scanning all-in-one machine - Google Patents

Abstract

The utility model belongs to the field of printing and stamping, and particularly relates to a printing and stamping scanning all-in-one machine which comprises a printing module, a stamping module, a scanning module and a paper arranging module, wherein the printing module, the stamping module and the scanning module are sequentially arranged, the paper arranging module is positioned at the rear end of the scanning module and is used for receiving and arranging paper subjected to scanning treatment by the scanning module, the paper arranging module comprises a conveyor, a paper collecting surrounding block and a paper pushing device, the conveyor is used for supporting and conveying paper output from an outlet of the scanning module, the paper collecting surrounding block is positioned on the conveyor and is provided with an opening corresponding to the outlet of the scanning module, the paper pushing device is provided with three groups which are respectively positioned at the front side and the left side and the right side of the paper collecting surrounding block, and the three groups of paper pushing devices are used for pushing the paper falling into the paper collecting surrounding block in order. According to the utility model, the paper arranging device is additionally arranged at the tail end of the printing and stamping integrated machine, so that paper can be arranged, and the disorder of the paper is avoided.

Description

Printing, stamping and scanning all-in-one machine

Technical Field

The utility model belongs to the field of printing and stamping, and particularly relates to a printing and stamping scanning integrated machine.

Background

Most of printing and stamping integrated machines in the market at present are simply stacked by printers and stamping machines, have simple functions and commonly have the following problems:

1) The lack of a mechanism for finishing paper is easy to cause confusion of paper output when more paper is printed;

2) Only one-sided stamping can be achieved;

3) After the seal is covered on the paper, the paper can be completely air-dried only in a certain time, if the paper needs to be positively and negatively sealed, the air-dried time for the seal is extremely short, the seal cannot be ensured to be completely air-dried, and when the paper which is not completely air-dried enters the next process, the phenomenon that the seal drags the seal can be caused, and the attractiveness of the file cannot be ensured.

Disclosure of utility model

In order to make up for the defects of the prior art, the utility model provides a technical scheme of a printing, stamping and scanning integrated machine.

The utility model provides a print scanning all-in-one of stamping, includes the printing module that sets gradually, module of stamping, scanning module, still includes reason paper module, reason paper module is located scanning module rear end, and it receives and arranges the paper of processing through scanning module scanning, reason paper module includes conveyer, collection paper and encloses fender, pushes away paper device, the conveyer is used for supporting and carries the paper of follow scanning module export output, collection paper encloses the fender and is located the conveyer, and it has the uncovered that corresponds with scanning module export, it has three groups to push away paper device, is located collection paper respectively and encloses the front side and the left and right sides that keep off, and three groups of paper devices push away the paper that will fall into in the collection paper and enclose fender neatly.

Further, the paper pushing device comprises a pushing plate and a paper pushing driving assembly used for driving the pushing plate to translate.

Further, the paper pushing driving assembly comprises a paper pushing motor and a crank block mechanism, wherein the paper pushing motor drives the crank block mechanism to move, and the crank block mechanism drives the push plate to translate.

Further, the paper arranging module further comprises a lifter, and the conveyor is arranged on the lifter and is driven to lift by the lifter.

Further, the stamping module comprises a first stamping machine and a second stamping machine which are sequentially arranged, wherein one stamping machine is used for front stamping, and the other stamping machine is used for back stamping.

Further, the first stamping machine and the second stamping machine are opposite in vertical installation direction.

Further, the stamping device further comprises a temporary suspension platform, wherein the temporary suspension platform is located between the stamping module and the scanning module, a power rubber wheel mechanism is arranged on the temporary suspension platform and used for temporarily buffering paper, and the power rubber wheel mechanism is used for assisting in conveying the paper into the scanning module.

Further, the power rubber wheel mechanism comprises a rubber wheel shaft, a plurality of rubber wheels arranged on the rubber wheel shaft and a rubber wheel motor for driving the rubber wheel shaft to rotate.

Compared with the prior art, the utility model has the beneficial effects that:

1) The paper arranging device is additionally arranged at the tail of the printing and stamping integrated machine, so that paper can be arranged, and the confusion of the paper is avoided;

2) According to the utility model, double-sided stamping of paper is realized through the first stamping machine and the second stamping machine;

3) According to the utility model, the time of air drying of the stamped paper is increased through the temporary platform, so that the stamp is prevented from dragging;

4) The utility model can realize full-automatic work and reduce the times of manually carrying documents.

Drawings

FIG. 1 is a schematic diagram of one embodiment of the present utility model;

FIG. 2 is a second schematic diagram of the structure of the present utility model;

FIG. 3 is a schematic view of a paper discharge apparatus according to the present utility model;

FIG. 4 is a schematic view of a temporary platform according to the present utility model;

FIG. 5 is a schematic diagram of a paper arranging module according to the present utility model;

FIG. 6 is a schematic diagram of a paper pushing device according to the present utility model;

FIG. 7 is a schematic view of the usage state structure of the present utility model.

In the figure: printing module 1, first seal machine 2, paper discharging device 3, paper guide frame 300, paper discharging unit 301, second seal machine 4, suspending platform 5, power rubber wheel mechanism 500, rubber wheel 5000, rubber wheel shaft 5001, rubber wheel motor 5002, scanning mounting frame 501, scanning module 6, paper arranging module 7, paper pushing device 700, push plate 7000, paper pushing motor 7001, crank block mechanism 7002, paper collecting enclosure 701, conveyor 702, paper arranging frame 703, lifter 704 and housing 8.

Detailed Description

In the description of the present utility model, it should be understood that the terms "one end," "the other end," "the outer side," "the upper," "the inner side," "the horizontal," "coaxial," "the center," "the end," "the length," "the outer end," and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, merely to facilitate description of the present utility model and simplify the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present utility model.

The utility model is further described below with reference to the accompanying drawings.

Referring to fig. 1-7, a printing, stamping and scanning integrated machine includes a printing module 1, a stamping module, a scanning module 6 and a paper arranging module 7, which are sequentially arranged, wherein the paper arranging module 7 is located at the rear end of the scanning module 6 and receives and arranges paper scanned by the scanning module 6. The printing module 1 is a conventional printer, and the scanning module 6 is a conventional sheet fed scanner.

With continued reference to fig. 1 and 2, the stamping module includes a first stamping machine 2, a paper discharging device 3 and a second stamping machine 4 which are sequentially arranged, wherein the first stamping machine 2 is positively arranged for front stamping, and the second stamping machine 4 is reversely arranged for back stamping. The structures of the first stamping machine 2 and the second stamping machine 4 are known in the prior art.

With continued reference to fig. 3, the paper discharging device 3 includes a paper guiding frame 300 for guiding paper and a paper discharging unit 301 disposed at a rear side of an upper end of the paper guiding frame 300, wherein the paper guiding frame 300 is obliquely disposed, the paper discharging unit 301 is a purchasing part, and is sold by su-zhiji electronic technology limited company, and the model is PZ-241H, and the paper discharging unit 301 is used for conveying and obliquely aligning paper.

With continued reference to fig. 2 and 4, the present utility model further includes a suspending platform 5, where the suspending platform 5 is located between the stamping module and the scanning module 6, the suspending platform 5 is used for temporarily buffering paper, a power rubber wheel mechanism 500 and a scanning mounting frame 501 are disposed on the suspending platform 5, the scanning mounting frame 501 is used for mounting the scanning module 6, and the power rubber wheel mechanism 500 is used for assisting in conveying the paper into the scanning module 6. The power rubber wheel mechanism 500 comprises a rubber wheel shaft 5001, a plurality of rubber wheels 5000 arranged on the rubber wheel shaft 5001 and a rubber wheel motor 5002 for driving the rubber wheel shaft 5001 to rotate, wherein the top of the rubber wheel 5000 is exposed out of a strip hole of the suspending platform 5 so as to be in contact with paper.

The sealed document falls on a temporary suspension platform 5 in front of a scanning module 6 from the sealing module, a plurality of rubber wheels 5000 assist paper to be conveyed into the scanning module 6 on the temporary suspension platform 5, the scanning module 6 is a paper feeding type scanner, the paper on the temporary suspension platform 5 passes through the scanner through a paper rubbing wheel of the scanner from the bottom, double-sided scanning of the document is completed, the scanned document is stored in a local designated path, and a worker can view the scanned document on a computer at any time.

The stamping module has a counting function, the paper passing through the stamping module is counted, the paper is stacked on the temporary suspension platform 5 from the stamping module, after a certain amount of paper is stacked, the scanner starts to start, the paper is extracted from the lower part to scan, the scanner also has the counting function, the paper is stacked on the temporary suspension platform 5, the purpose is that the stamped paper has enough time to ensure that the stamp is completely air-dried, and even if the scanner rubs a paper wheel and a paper feeding wheel to press on the stamp, the stamping condition does not occur.

The sheet stacking condition of the suspending platform 5 is as follows:

1. When the number of pages of the document is less than or equal to 60 pages (namely 30 pages), the printing module 1 prints the document, the stamping module stamps the front and back sides of the document, the paper is piled on the suspending platform 5, the printing task is finished, the waiting time is 30 seconds, the scanning module 6 starts scanning, and the document is ensured to have enough time to air-dry the seal.

2. When the number of pages of the document is greater than 60 pages, the printing module 1 prints the document, the stamping module stamps the front and back sides, the paper is piled on the suspending platform 5, the scanning module 6 is not started before the number of piled pages is 30 pages, after the number of piled pages is greater than 30 pages, the scanning module 6 starts to start, the printing module 1 prints normally, the printing speed of the printing module 1 is greater than the scanning speed of the scanning module 6 in the process, the paper can be piled on the suspending platform 5 slowly in the normal state, when the stamping module count minus the scanning module 6 count (namely the number of the paper on the suspending platform 5) is greater than 50 pages, the printing module 1 pauses, the number of the paper on the platform is reduced to 30 by waiting for the scanning module 6, and the printing module 1 continues to work; because in the printing process, the seal position needs to be adjusted, the process of adjusting the seal position needs to be suspended, the printing module 1 needs to wait for the seal position on the seal module to be adjusted, and then the starting can be continued, the paper on the suspending platform 5 in the process has the condition of less than 20 sheets, when the number of the paper on the suspending platform 5 is less than 20 sheets, the scanning module 6 is suspended, the printing module 1 continues to print, the number of the paper on the suspending platform 5 is slowly increased, when the number of the paper on the suspending platform 5 is more than 30 sheets, the scanning module 6 continues to be started, and the circulation is completed until the whole printing, seal and scanning of the document are completed.

With continued reference to fig. 5 and 6, the paper arranging module 7 includes a conveyor 702, a paper collecting fence 701, and a paper pushing device 700, where the conveyor 702 is used to support and convey paper output from the outlet of the scanning module 6, the paper collecting fence 701 is located on the conveyor 702, but is not directly connected with a belt of the conveyor 702, and is not driven by the conveyor 702, and is in a U-shaped structure, and is composed of three baffles at the rear side and the left and right sides, the front side of the paper collecting fence 701 has openings corresponding to the outlet of the scanning module 6, the paper pushing device 700 has three groups located at the front side and the left and right sides of the paper collecting fence 701, and the three groups of paper pushing devices 700 push the paper falling into the paper collecting fence 701 in order. The paper pushing device 700 comprises a push plate 7000 and a paper pushing driving component for driving the push plate 7000 to translate, the paper pushing driving component comprises a paper pushing motor 7001 and a crank slider mechanism 7002, the crank slider mechanism 7002 comprises a crank, a connecting rod, a sliding rod and a sliding seat, one end of the crank is connected with an output shaft of the paper pushing motor 7001, the other end of the connecting rod is rotationally connected with the sliding rod, the sliding seat is fixedly arranged and is in sliding fit with the sliding rod, the push plate 7000 is fixed at the other end of the sliding rod, and the crank slider mechanism 7002 is a known technology and is not described in detail. When the paper pushing motor 7001 works, the paper pushing motor 7001 drives the crank slider mechanism 7002 to move, and the crank slider mechanism 7002 drives the push plate 7000 to translate.

In another embodiment, the paper pushing driving assembly can also directly adopt an air cylinder or an electric cylinder or an oil cylinder.

With continued reference to fig. 5, in order to avoid interference of the collecting fence 701 to the push plates 7000 on the left and right sides, the present utility model provides openings corresponding to the push plates 7000 on the collecting fence 701, so that the push plates 7000 can extend into the collecting fence 701 through the openings. In addition, the front push plate 7000 is normally hidden under the rear side of the scanning module 6, so that the scanning module 6 is not affected to output paper, and the front push plate 7000 moves backward to push the paper in order after the paper is output.

In the present utility model, the three-direction pushing device 700 pushes the sheets together toward the inside of the collector fence 701 to push the stacked sheets in order, that is, the push plate 7000 on the left moves to the right, the push plate 7000 on the right moves to the left, and the push plate 7000 on the front moves to the rear.

Referring further to fig. 5, the paper arranging module 7 further includes a lifter 704 and a paper arranging frame 703, the lifter 704 and the paper pushing device 700 are both installed on the paper arranging frame 703, the conveyer 702 is disposed on the lifter 704, and the lifter 704 is a conventional electric scissor type lifter, which can drive the conveyer 702 to lift.

The sheet pushing device 700 sorts the sheets output from the scanning module 6. When a task starts, the lifter 704 drives the conveyor 702 to lift, the paper pushing device 700 operates, paper sequentially falls on the conveyor 702, the thickness of the paper stack reaches a certain degree along with the progress of the task, the inductive switch senses the paper, then a signal is sent to the control system, the control system sends an instruction to the lifter 704, the lifter 704 drives the conveyor 702 to descend for a small distance, and the paper drop output from the scanner is ensured to be certain. After the whole task is printed, the conveyor 702 descends to the height that the paper is not blocked by the paper collecting surrounding baffle 701, then the conveyor 702 runs for a certain distance to send the paper out of the paper collecting surrounding baffle 701, and the staff waits for taking the printed and stamped file.

In addition, the utility model is also provided with conventional equipment such as a touch screen, a keyboard, a computer, a photoelectric switch and the like so as to control the operation of the integrated machine.

The workflow of the utility model comprises:

Step 1, printing the paper by the printing module 1, and outputting the paper to the stamping module by the printing module 1 after the printing is finished.

Step 2, stamping the paper by the stamping module, and outputting the paper to the scanning module 6 by the stamping module after the stamping is finished, wherein the steps specifically comprise:

Step 2.1, stamping paper by a first stamping machine 2, outputting the stamped paper to a paper discharging device, and then conveying the paper to a second stamping machine 4 by the paper discharging device 3;

And 2.2, stamping the other surface of the paper by a second stamping machine 4, and outputting the paper to a suspension platform 5 after stamping.

And 3, scanning the paper by a scanning module 6.

After the stamping is finished, the paper output from the stamping module is received through the suspending platform 5, after the stamping is air-dried, the paper is conveyed backwards through the suspending platform 5, the scanning module 6 sucks the paper for scanning, and after the scanning is finished, the paper is output to the paper arranging module 7.

Step 4, finishing paper by a paper finishing module 7, specifically comprising:

Paper is output from an outlet of the scanning module 6 onto the conveyor 702 and is surrounded by the paper collecting surrounding baffle 701 to form a paper pile, then the paper pile is pushed to be regular through the paper pushing devices 700 on the front side and the left side and the right side, when the paper is accumulated to a certain height on the conveyor 702 and sensed by the photoelectric switch, the conveyor 702 is driven by the lifter 704 to descend to the height that the paper is not blocked by the paper collecting surrounding baffle 701, then the conveyor 702 runs for a certain distance to send the paper out of the equipment, and a worker waits for taking the printed and stamped file.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and not for limiting the same; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the utility model.

Claims (8)

1. The utility model provides a print scanning all-in-one of stamping, includes the printing module that sets gradually, module, the scanning module of stamping, its characterized in that still includes reason paper module, reason paper module is located scanning module rear end, and it receives and arranges the paper that passes through scanning module scanning processing, reason paper module includes conveyer, collection paper encloses fender, pushes away paper device, the conveyer is used for supporting and carrying the paper of follow scanning module export output, collection paper encloses the fender and is located the conveyer, it has the uncovered that corresponds with scanning module export, it has three groups to push away paper device, is located collection paper respectively and encloses the front side and the left and right sides that keep off, and three groups of paper devices are enclosed the paper that keep off in will falling into the collection paper and are pushed away neatly.

2. The machine of claim 1, wherein the pushing device comprises a pushing plate and a pushing drive assembly for driving the pushing plate to translate.

3. The printing, stamping and scanning integrated machine according to claim 2, wherein the paper pushing driving assembly comprises a paper pushing motor and a crank block mechanism, the paper pushing motor drives the crank block mechanism to move, and the crank block mechanism drives the pushing plate to translate.

4. The printing, stamping and scanning integrated machine according to claim 1, wherein the paper arranging module further comprises a lifter, the conveyor is arranged on the lifter, and the lifter drives the conveyor to lift.

5. The printing and stamping and scanning integrated machine according to claim 1, wherein the stamping module comprises a first stamping machine and a second stamping machine which are sequentially arranged, one of the first stamping machine and the second stamping machine is used for front stamping, and the other stamping machine is used for back stamping.

6. The printing and stamping and scanning integrated machine according to claim 5, wherein the first stamping machine and the second stamping machine are arranged in opposite directions.

7. The printing, stamping and scanning all-in-one machine according to claim 1, further comprising a temporary suspension platform, wherein the temporary suspension platform is positioned between the stamping module and the scanning module, a power rubber wheel mechanism is arranged on the temporary suspension platform and is used for temporarily buffering paper, and the power rubber wheel mechanism is used for assisting in conveying the paper into the scanning module.

8. The printing, stamping and scanning integrated machine according to claim 7, wherein the power rubber wheel mechanism comprises a rubber wheel shaft, a plurality of rubber wheels arranged on the rubber wheel shaft and a rubber wheel motor for driving the rubber wheel shaft to rotate.