CN215474041U - Page turning device for automatic stamping machine - Google Patents

Abstract

The utility model relates to a page turning device for an automatic stamping machine, which comprises a machine table, a page turning assembly, a paper pressing assembly and a paper lifting assembly, wherein the machine table is provided with a plurality of paper feeding holes; a document cavity for placing fixed files is arranged on the machine table; the paper lifting component and the page turning component are positioned on one side of the document cavity, and the paper pressing component is positioned on the other side of the document cavity; the paper lifting assembly comprises an adsorption mechanism for adsorbing paper and a first driving mechanism for driving the adsorption mechanism to move along the vertical direction; the page turning component comprises a page turning part and a second driving mechanism for driving the page turning part to move. The adsorption mechanism adsorbs the paper and then moves upwards, so that the paper can be lifted one page at each time, and then the lifted paper is brought to one side of the paper pressing assembly through the page turning part and is pressed tightly through the paper pressing assembly. Because the paper moves upwards and the adsorption mechanism can only contact the uppermost paper at each time, the successful page turning can be ensured as long as the adsorption mechanism is ensured to have enough adsorption force, the page turning success rate of the stamping machine is improved, and the page turning of the stamping machine can be successfully performed almost every time.

Description

Page turning device for automatic stamping machine

Technical Field

The utility model relates to the technical field of automatic stamping machines, in particular to a page turning device for an automatic stamping machine.

Background

The automatic stamping equipment aims to simplify manual high-repeatability actions with low efficiency, automatically turns pages of a file through the stamping machine and stamps the file, reduces manpower loss and improves working efficiency.

The publication number is "CN 111439047A", chinese patent document whose publication date is 2020, 7, 24 discloses an automatic stamping device, which includes a control device, a fixing device, a page turning device and a stamping device, wherein the page turning device includes a pressing rod, a page turning component and a first connecting component, the pressing rod is used for pressing and rubbing up a stamped document, the page turning component is used for turning over a page of the rubbed stamped document, and the first connecting component is used for connecting the pressing rod and the page turning component to the bracket. The actual page turning component in the technical scheme is a page turning roller moving rightwards, the pressure lever drives the uppermost page of the document to move rightwards in the page turning process to form an inverted U shape, and the page turning roller enters from the outer side of the stamped document and is just positioned below the uppermost page of the stamped document. The page turning rod moves rightwards, so that the uppermost page of the stamped file is turned rightwards, and the page turning of the file is realized.

In the technical scheme, the press rod presses the uppermost paper tightly, and the paper is driven to move rightwards under the action of friction force, so that the paper and the press rod are loosened and page turning fails in the moving process if the friction force is insufficient; and if the friction force is too large, the pressure lever can drive the two papers to move rightwards together, so that part of the pages cannot be stamped. Because the surface friction coefficients of different papers are different, and the pressing rod is damaged after the paper turning device is used for a period of time, the friction force between the pressing rod and the papers is difficult to accurately control, and the error rate of the page turning device is high.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problem of high error rate of the page turning device in the prior art, provides the page turning device for the automatic stamping machine and ensures that the page turning device can turn pages successfully almost every time.

In order to solve the technical problems, the utility model adopts the technical scheme that: a page turning device for an automatic stamping machine comprises a machine table, and a page turning assembly, a paper pressing assembly and a paper lifting assembly which are all arranged on the machine table; a document cavity for placing fixed files is arranged on the machine table; the paper lifting assembly and the page turning assembly are positioned on one side of the document cavity, and the paper pressing assembly is positioned on one side of the document cavity far away from the paper lifting assembly; the paper lifting assembly comprises an adsorption mechanism for adsorbing paper and a first driving mechanism for driving the adsorption mechanism to move along the vertical direction; the page turning component comprises a page turning part and a second driving mechanism for driving the page turning part to move towards the paper pressing component.

In the technical scheme, the document to be stamped is placed in the document cavity, and the document cavity is provided with the powerful clip for fixing the document. First actuating mechanism drive adsorption apparatus constructs vertical downstream and makes its and the paper contact of document the top and adsorb this paper, then first actuating mechanism drives the vertical upward movement of adsorption apparatus structure and takes the paper of the top, meanwhile, second actuating mechanism drives the direction motion of turning over a page or leaf portion to pressing the paper subassembly, and because the paper of the top is taken, can take the paper to pressing paper subassembly department simultaneously when turning over a page or leaf portion to pressing paper subassembly direction motion, and compress tightly this paper and avoid its to reset through pressing the paper subassembly. And finally, resetting the page turning component, and repeating the process until each page of paper of the document is turned once. The adsorption mechanism may be a component capable of generating static electricity or negative pressure by which the paper is adsorbed.

Preferably, the adsorption mechanism includes a roller frame provided with a roller, an adhesive layer arranged on the outer surface of the roller, a friction part arranged on the roller frame and abutted against the adhesive layer, and a first motor assembly for driving the roller to rotate. First motor element drives the gyro wheel and rotates, and when the gyro wheel rotated, relative motion took place for viscose layer and friction portion to make the viscose layer have static, through the static adsorption paper on viscose layer.

Preferably, the adsorption mechanism further comprises a movable block connected with the roller frame through a mounting frame; a sliding rod connected with the moving block in a sliding manner and an elastic piece used for connecting the moving block and the mounting frame are arranged on the mounting frame; the elastic direction of the elastic piece is the direction of pushing the moving block to vertically move downwards. The first driving mechanism can drive the roller to move for a specified distance, and in order to enable the adhesive layer to be in contact with each piece of paper, the first driving mechanism can drive the roller to move to the bottom surface of the document cavity. And after the document is put into the document cavity, the roller is blocked by the document, and the moving block can move upwards along the sliding rod, so that after the roller is blocked by the document, namely the adhesive layer is contacted with paper, the roller can be static relative to the document, the first driving mechanism can continue to move, and the component can smoothly execute a control instruction.

Preferably, the first driving mechanism can be a cylinder, a pushing device or a linear sliding table module and other mechanical components, and the mounting frame is fixed on the sliding table of the linear sliding table module. The adsorption mechanism moves in the vertical direction along with the sliding table.

Preferably, the page turning part comprises a page turning rod and a lifting mechanism for driving the page turning rod to lift; a portal frame is arranged above the document cavity of the machine table, and the second driving mechanism is arranged on the portal frame; the page turning rod is used for bringing paper to the paper pressing component, and the lifting mechanism can change the relative height of the page turning rod according to the thickness of the document, so that the page turning rod is prevented from interfering with the document. And a sensor for detecting the thickness of the document is arranged on the portal frame, and the sensor is electrically connected with the lifting mechanism. The sensor can be an infrared distance measuring sensor, and the relative height of the page turning rod can be automatically adjusted by controlling the lifting mechanism through detecting the height of the document.

Preferably, the end of the page turning rod is arc-shaped. Because the paper is softer, the paper is easy to deform in the moving process, and the arc-shaped tail end of the page turning rod can be attached to the deformed paper and supports the paper, so that the paper is prevented from being separated from a gap between the page turning rod and the machine table after being deformed.

Preferably, the lifting mechanism and the second driving mechanism may be mechanical mechanisms such as a cylinder, a push rod or a linear sliding table module, and more preferably, the linear sliding table module.

Preferably, the paper pressing assembly comprises a presser bar for pressing the paper and a first driving motor for driving the presser bar to rotate. The first driving motor drives the presser bar to rotate around the horizontal axis, the page turning bar is driven by the first driving motor to rotate upwards in the moving process, and when the page turning bar drives paper to move to the paper pressing assembly, the presser bar rotates downwards to press the paper tightly, and then the page turning bar resets. Two or more presser foot rods may be provided.

Preferably, the paper pressing assembly further comprises a blocking piece for blocking the paper from resetting and a second driving motor for driving the blocking piece to rotate. When a plurality of pages of paper are turned, the page turning rod does not press the turned paper because the page turning rod rotates upwards in the moving process of the page turning rod, and in order to avoid resetting the paper, the second driving motor drives the blocking sheet to move towards the direction of the document cavity in the process so as to block resetting of the paper. And when the presser bar rotates downwards, the blocking piece is reset to leave the document cavity.

Preferably, the tail end of the presser foot rod is provided with an arc part. The centre of a circle of arc portion is located the circular arc top, can compress tightly the paper through the arcwall face, and the arcwall face can effectively prevent that the paper from being by presser bar scratch simultaneously.

Compared with the prior art, the utility model has the beneficial effects that: the paper is adsorbed by the adsorption mechanism and then moves upwards, so that the paper can be lifted at each time, the lifted paper is brought to one side of the paper pressing assembly through the page turning part, and the paper is pressed through the paper pressing assembly. Because the paper moves upwards and the adsorption mechanism can only contact the uppermost paper at each time, the successful page turning can be ensured as long as the adsorption mechanism is ensured to have enough adsorption force, the page turning success rate of the stamping machine is improved, and the page turning of the stamping machine can be successfully performed almost every time.

Drawings

FIG. 1 is a schematic structural diagram of a page turning device for an automatic stamping machine according to the present invention;

FIG. 2 is a schematic structural view of the paper pick-up assembly of the present invention;

FIG. 3 is a schematic view of the structure of the adsorption mechanism of the present invention;

FIG. 4 is a schematic structural view of the page turning assembly of the present invention;

FIG. 5 is a schematic view of the construction of the presser bar and the first drive motor of the present invention;

fig. 6 is a schematic structural view of the baffle and the second driving motor of the present invention.

Detailed Description

The drawings are for illustrative purposes only and are not to be construed as limiting the patent; for the purpose of better illustrating the embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted. The positional relationships depicted in the drawings are for illustrative purposes only and are not to be construed as limiting the present patent.

The same or similar reference numerals in the drawings of the embodiments of the present invention correspond to the same or similar components; in the description of the present invention, it should be understood that if there are terms such as "upper", "lower", "left", "right", "long", "short", etc., indicating orientations or positional relationships based on the orientations or positional relationships shown in the drawings, it is only for convenience of description and simplicity of description, but does not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore, the terms describing the positional relationships in the drawings are only used for illustrative purposes and are not to be construed as limitations of the present patent, and specific meanings of the terms may be understood by those skilled in the art according to specific situations.

The technical scheme of the utility model is further described in detail by the following specific embodiments in combination with the attached drawings:

examples

As shown in fig. 1-3, an embodiment of a page turning device for an automatic stamping machine includes a machine table 1, and a page turning assembly 2, a paper pressing assembly 3 and a paper lifting assembly 4 all disposed on the machine table 1; a document cavity 101 for placing fixed files is arranged on the machine table 1; the paper lifting component 4 and the page turning component 2 are positioned at one side of the document cavity 101, and the paper pressing component 3 is positioned at one side of the document cavity 101 far away from the paper lifting component 4; the paper lifting assembly 4 includes an adsorption mechanism 401 for adsorbing paper and a first driving mechanism 402 for driving the adsorption mechanism 401 to move in the vertical direction; the page turning unit 2 includes a page turning part 201 and a second driving mechanism 202 for driving the page turning part 201 to move in the direction of the paper pressing unit 3.

Specifically, the adsorption mechanism 401 includes a roller frame 4012 on which the roller 4011 is mounted, an adhesive layer 4013 disposed on an outer surface of the roller 4011, a friction portion 4014 mounted on the roller frame 4012 and abutted against the adhesive layer 4013, and a first motor assembly 4015 for driving the roller 4011 to rotate. First motor subassembly 4015 drives gyro wheel 4011 and rotates, and when gyro wheel 4011 rotated, relative motion took place with friction portion 4014 on viscose layer 4013 to make viscose layer 4013 have static, through viscose layer 4013's static adsorption paper. In the embodiment, the first motor assembly 4015 comprises a driven gear 4151 connected to the roller 4011, a driving gear 4152 rotatably connected to the roller frame 4012, and a dc motor 4153 mounted on the roller frame 4012, wherein the driving gear 4152 is engaged with the driven gear 4151, and the dc motor 4153 drives the driving gear 4152 to rotate. The friction portion 4014 is a sponge having plasticity, and can keep abutting and rubbing against the adhesive layer 4013 without generating an excessive load on the roller 4011.

The adsorption mechanism 401 further comprises a mounting frame 4016 and a moving block 4017 connected with the roller frame 4012; a slide bar 4018 connected with the moving block 4017 in a sliding manner and an elastic piece 4019 used for connecting the moving block 4017 and the mounting frame 4016 are arranged on the mounting frame 4016; the direction of the elastic force of the elastic member 4019 is a direction to push the moving block 4017 to move vertically downward. The first driving mechanism 402 drives the roller 4011 to move a predetermined distance, and in order to make the adhesive layer 4013 contact each sheet of paper, the first driving mechanism 402 drives the roller 4011 to move to the bottom surface of the document cavity 101. And after the document is put into the document cavity 101, the roller 4011 is blocked by the document, and at this time, the moving block 4017 can move upwards along the sliding rod 4018, so that after the roller 4011 is blocked by the document, namely the adhesive layer 4013 is contacted with paper, the roller 4011 can be stationary relative to the document, and the first driving mechanism 402 can continue to move, so that the component can smoothly execute a control instruction.

In this embodiment, the first driving mechanism 402 is a linear sliding table module, and the mounting frame 4016 is fixed on the sliding table of the linear sliding table module.

The working principle of the embodiment is as follows: the document cavity 101 is divided into two parts, namely a cavity 1011 for turning pages and a paper cavity 1012, documents to be stamped are placed in the cavity 1011 for turning pages in the document cavity 101, and a folder for fixing the documents is arranged in the cavity 1011 for turning pages. The paper lifting component 4 and the page turning component 2 are positioned at one side of the to-be-turned page cavity 1011 of the document cavity 101, and the paper pressing component 3 is positioned at one side of the paper cavity 1012. First actuating mechanism 402 drive gyro wheel 4011 vertical downstream, viscose layer 4013 and the uppermost paper contact of document and adsorb this paper, then first actuating mechanism 402 drives adsorption mechanism 401 vertical upward movement and takes the paper of the top, meanwhile, second actuating mechanism 202 drives and turns over page 201 to the direction motion of pressing paper subassembly 3, and because the paper of the top is taken, consequently turn over page 201 and can take paper to paper chamber 1012 department simultaneously when pressing paper subassembly 3 direction motion to paper chamber 1012 department, and compress tightly this paper in paper chamber 1012 department, then compress tightly this paper through pressing paper subassembly 3 after, turn over page subassembly 2 and reset. The above process is repeated until each page of the document is turned once.

The beneficial effects of this embodiment: the paper is adsorbed by the adsorption mechanism 401 and then moves upwards, so that one page of paper can be lifted each time, and the lifted paper is brought to one side of the paper pressing assembly 3 through the page turning part 201 and is pressed through the paper pressing assembly 3. Because the paper moves upwards and the adsorption mechanism 401 can only contact the uppermost paper at each time, the successful page turning can be ensured as long as the adsorption mechanism 401 has enough adsorption force, the success rate of the page turning of the stamping machine is improved, and the page turning of the stamping machine can be successfully completed almost every time.

Example 2

Referring to fig. 1-6, there is shown an embodiment 2 of a page turning device for an automatic stamping machine, the page turning assembly 2 and the paper pressing assembly 3 being further defined.

As shown in fig. 4, the page turning part 201 includes a page turning rod 2011 and a lifting mechanism 2012 for driving the page turning rod 2011 to lift and lower; a gantry 102 is arranged above the document cavity 101 of the machine table 1, and a second driving mechanism 202 is arranged on the gantry 102; the page turning bar 2011 is used for bringing paper to the paper pressing assembly 3, and the lifting mechanism 2012 can change the relative height of the page turning bar 2011 according to the thickness of the document, so that the interference between the page turning bar 2011 and the document is avoided. The gantry 102 is provided with a sensor 1021 for detecting the thickness of the document, and the sensor 1021 is electrically connected with the lifting mechanism 2012. The sensor 1021 can be an infrared distance measuring sensor, and controls the lifting mechanism 2012 to automatically adjust the relative height of the page turning rod 2011 by detecting the height of the document.

Specifically, the end of the page turning bar 2011 is arc-shaped. Because the paper is softer, the paper is easy to deform in the moving process, and the arc-shaped tail end of the page turning rod 2011 can be attached to the deformed paper and support the paper, so that the paper is prevented from being separated from a gap between the page turning rod 2011 and the machine table 1 after being deformed.

In this embodiment, the lifting mechanism 2012 and the second driving mechanism 202 are linear sliding table modules, the page turning rod 2011 is installed on the sliding table of the lifting mechanism 2012, and the page turning part 201 is installed on the sliding table of the second driving mechanism 202.

As shown in fig. 5, the platen roller assembly 3 includes a platen roller 301 for pressing the sheet and a first drive motor 302 for driving the platen roller 301 to rotate. First driving motor 302 drive presser bar 301 rotates around the horizontal axis direction, and the in-process that page turning rod 2011 removed, presser bar 301 is driven clockwise upwards to rotate by first driving motor 302, takes the paper to remove to pressing paper subassembly 3 department when turning over page turning rod 2011, and presser bar 301 anticlockwise rotates downwards, compresses tightly the paper, then page turning rod 2011 resets. In this embodiment, two presser bar rods 301 may be provided, and driven by one bidirectional motor.

The paper pressing assembly 3 further includes a blocking piece 303 for blocking the paper from being reset and a second driving motor 304 for driving the blocking piece 303 to rotate, as shown in fig. 6. When a plurality of pages of paper are turned, in the process of moving the page turning bar 2011, the presser bar 301 does not press the turned paper because of clockwise upward rotation, and in order to avoid resetting the paper, in the process, the second driving motor 304 drives the blocking sheet 303 to move towards the direction of the document cavity 101, so that the paper is blocked from resetting. While the presser bar 301 rotates counterclockwise downward, the shutter 303 is also reset away from the document cavity 101.

Specifically, the end of the presser foot lever 301 is provided with a circular arc portion 3011. The circle center of the arc portion 3011 is located above the arc, and can compress paper through the arc surface, and the arc surface can effectively prevent the paper from being scratched by the presser foot rod 301.

The working principle of the embodiment is as follows: the document cavity 101 is divided into two parts, namely a cavity 1011 for turning pages and a paper cavity 1012, documents to be stamped are placed in the cavity 1011 for turning pages in the document cavity 101, and a folder for fixing the documents is arranged in the cavity 1011 for turning pages. The paper lifting component 4 and the page turning component 2 are positioned at one side of the to-be-turned page cavity 1011 of the document cavity 101, and the paper pressing component 3 is positioned at one side of the paper cavity 1012. First actuating mechanism 402 drive gyro wheel 4011 vertical downstream, viscose layer 4013 and the uppermost paper contact of document and adsorb this paper, then first actuating mechanism 402 drives adsorption mechanism 401 vertical upward movement and takes the paper of the top up, and meanwhile, second actuating mechanism 202 drives and turns over page or leaf pole 2011 to the direction motion of pressing paper subassembly 3, and because the paper of the top is taken up, consequently turn over page or leaf pole 2011 and can take the paper to paper chamber 1012 department simultaneously when pressing paper subassembly 3 direction motion to pressing paper, and compress tightly this paper in paper chamber 1012 department. In the process that the page turning bar 2011 carries the paper to move towards the paper cavity 1012, the presser bar 301 rotates clockwise upwards, and the baffle 303 rotates towards the paper cavity 1012 and extends into the range of the paper cavity 1012. After the page turning rod 2011 presses the paper in the paper cavity 1012, the presser bar 301 rotates anticlockwise and downwards, the blocking piece 303 resets and is separated from the range of the paper cavity 1012, the presser bar 301 and the blocking piece 303 move almost simultaneously, the presser bar 301 presses the paper in the paper cavity 1012, and finally the page turning assembly 2 resets. The above process is repeated until each page of the document is turned once.

The beneficial effects of this embodiment: compared with the embodiment 1, the page turning device of the embodiment, through the cooperation of the page turning component 2 and the paper pressing component 3, the turned paper can be always limited in the paper cavity 1012 during the page turning process, and the paper is prevented from being reset. And the page turning component 2 and the paper pressing component 3 are compactly matched, the page turning period is short, and the page turning efficiency is improved.

It should be understood that the above-described embodiments of the present invention are merely examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (10)

1. A page turning device for an automatic stamping machine comprises a machine table (1), and a page turning component (2) and a paper pressing component (3) which are arranged on the machine table (1), and is characterized by further comprising a paper lifting component (4) arranged on the machine table (1); a document cavity (101) for placing a fixed file is arranged on the machine table (1); the paper lifting component (4) and the page turning component (2) are positioned on one side of the document cavity (101), and the paper pressing component (3) is positioned on one side of the document cavity (101) far away from the paper lifting component (4); the paper lifting assembly (4) comprises an adsorption mechanism (401) for adsorbing paper and a first driving mechanism (402) for driving the adsorption mechanism (401) to move along the vertical direction; the page turning component (2) comprises a page turning part (201) and a second driving mechanism (202) for driving the page turning part (201) to move towards the paper pressing component (3).

2. The page turning device for the automatic stamping machine according to claim 1, characterized in that the adsorption mechanism (401) comprises a roller frame (4012) provided with a roller (4011), an adhesive layer (4013) arranged on the outer surface of the roller (4011), a friction part (4014) arranged on the roller frame (4012) and abutted to the adhesive layer (4013), and a first motor assembly (4015) driving the roller (4011) to rotate.

3. The page turning device for automatic stamping machines according to claim 2, characterized in that the suction mechanism (401) further comprises a mounting frame (4016), a moving block (4017) connected with the roller frame (4012); the mounting frame (4016) is provided with a slide bar (4018) which is connected with the moving block (4017) in a sliding way and an elastic piece (4019) which is used for connecting the moving block (4017) and the mounting frame (4016); the elastic direction of the elastic piece (4019) is the direction for pushing the moving block (4017) to move vertically downwards.

4. The page turning device for the automatic stamping machine according to claim 3, wherein the first driving mechanism (402) is a linear sliding table module, and the mounting frame (4016) is fixed on a sliding table of the linear sliding table module.

5. A page turning device for an automatic stamping machine according to claim 3, characterized in that the page turning part (201) comprises a page turning rod (2011) and a lifting mechanism (2012) for driving the page turning rod (2011) to lift; a portal frame (102) is arranged above the document cavity (101) of the machine table (1), and the second driving mechanism (202) is arranged on the portal frame (102); the portal frame (102) is provided with a sensor (1021) for detecting the thickness of a document, and the sensor (1021) is electrically connected with the lifting mechanism (2012).

6. The page turning device for automatic stamping machines as claimed in claim 5, characterized in that the end of the page turning bar (2011) is arc-shaped.

7. The page turning device for automatic stamping machines according to claim 5, characterized in that the lifting mechanism (2012) and the second driving mechanism (202) are both linear sliding table modules.

8. The page turning device for the automatic stamping machine according to claim 5, characterized in that the paper pressing assembly (3) comprises a presser foot lever (301) for pressing the paper and a first driving motor (302) for driving the presser foot lever (301) to rotate.

9. The page turning device for automatic stamping machines according to claim 8, characterized in that the paper pressing assembly (3) further comprises a blocking sheet (303) for blocking the paper from returning and a second driving motor (304) for driving the blocking sheet (303) to rotate.

10. The page turning device for automatic stamping machines as claimed in claim 8, characterized in that the end of the presser bar (301) is provided with a circular arc (3011).

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