CN116534619B - Paper storage device, paper storage equipment and paper storage method - Google Patents

Abstract

The invention discloses a paper storage device, paper storage equipment and a paper storage method. The paper storage device comprises: and the paper storage frame body and the paper storage unit. Both ends of the paper storage frame body are provided with paper guide rollers. The middle part of the paper storage unit is provided with a hinge part which is rotationally connected with the paper storage frame body. The two ends of the paper storage unit are provided with paper storage rollers which are parallel to each other. The paper storage device comprises a base frame body and a plurality of paper storage devices. The paper storage devices are arranged in the front-back direction and slidably mounted on the base frame body. The base frame body is provided with a translation driving component for driving the paper storage device to move. According to the paper storage device, the paper storage units which are not used for storing paper or are full of paper are small in width, and can be arranged in a small space. The paper storage device is driven by the translation driving component and is respectively arranged at two ends of the paper storage device, so that the whole space utilization rate of the device is high, and the space requirement is low. In the paper storage method, the translation action of the paper storage device and the rotation paper collecting and releasing action of the paper storage unit can be synchronously carried out through the transmission connection.

Description

Paper storage device, paper storage equipment and paper storage method

Technical Field

The invention relates to the technical field of printing equipment, in particular to a paper storage device, paper storage equipment and a paper storage method.

Background

In the prior art paper storage equipment, the paper storage space occupies a large field, and especially for high-speed printing, the paper storage paper is often quite large in volume. Secondly, the structure of the paper storage device is relatively complex and the cost is generally high. Moreover, the existing paper storage equipment generally has the problem of difficult paper threading, the paper threading process is time-consuming and labor-consuming, and some paper storage frames are higher and need to be threaded through paper in high-altitude operation; some even require disassembly of the equipment housing for paper threading.

Disclosure of Invention

The present invention is directed to a paper storage device that solves one or more of the problems of the prior art, and at least provides a useful choice or creation.

The technical scheme adopted for solving the technical problems is as follows:

a paper storage device comprising: a paper storage frame body, a paper storage unit and a turnover driving member; both ends of the paper storage frame body are provided with paper guide rollers; the middle part of the paper storage unit is provided with a hinge part which is rotationally connected with the paper storage frame body, and two ends of the paper storage unit are provided with paper storage rollers which are parallel to each other; the turnover driving component is used for driving the paper storage unit to rotate relative to the paper storage frame body, and the rotation axes of the paper guide roller, the paper storage roller and the paper storage unit are parallel to each other.

The paper storage device provided by the invention has at least the following beneficial effects: the turnover driving component can drive the paper storage unit to rotate relative to the paper storage frame body, and two paper storage rollers of the paper storage unit can fold and store paper between the two paper guide rollers through rotary winding. The paper storage device stores paper by the two paper storage rollers of the rotatable paper storage unit, and the paper storage quantity is large. The paper storage unit width of the paper which is not stored or is full of paper is smaller, and the paper storage unit can be arranged along the connecting line direction of the two paper guide rollers, so that the whole width of the paper storage device is small, and a plurality of paper storage devices can be arranged in a smaller space, and the space requirement is low.

As a further improvement of the above technical solution, the number of the paper storage units is plural, and the plural paper storage units are arranged between two paper guide rollers of the paper storage frame body. Through above-mentioned technical scheme, a plurality of paper storage units can greatly increased paper storage volume.

As a further improvement of the technical scheme, a transmission member is arranged among the plurality of paper storage units, and the transmission member is respectively connected with the plurality of paper storage units in a transmission way, so that the plurality of paper storage units synchronously rotate. Through the technical scheme, the plurality of paper storage units which are synchronously connected can synchronously rotate when paper is received and released, the paper receiving and releasing speed is high, and the receiving and releasing of paper conveyed at high speed can be met.

As a further improvement of the technical scheme, the distance between the adjacent paper storage units is larger than the distance between the paper storage rollers at the two ends of the paper storage units. Through the technical scheme, each paper storage unit is not interfered with each other when rotating.

The invention also provides a paper storage device comprising: the paper storage device comprises a base frame body and a plurality of paper storage devices, wherein the paper storage devices are connected with the base frame body in a sliding mode along the same direction, the base frame body is provided with a translation driving member, and the translation driving member is provided with a translation driving end which is in transmission connection with the paper storage devices and enables the paper storage devices to move relative to the base frame body.

The paper storage equipment provided by the invention has at least the following beneficial effects: in the paper storage device without paper storage or full paper storage, the paper storage unit can keep a small included angle with the connecting line of the two paper guide rollers, and the whole width is small. Through translation drive member drive paper storage device translation for the paper storage device of not storing up paper or storing up full paper can remove the front and back both ends of storing up paper equipment and arrange with less interval and place, has reduced paper storage equipment overall dimension greatly, and space utilization is high, and space demand is low.

As a further improvement of the above technical solution, the paper storage device has a first connection portion, the translational driving end has a second connection portion that is retractable toward the paper storage device, and the second connection portion is connected with the first connection portion when the second connection portion extends toward the paper storage device. Through the technical scheme, the translation driving end of the translation driving member stretches out and draws back through controlling the second connecting portion, so that connection control with the first connecting portion is achieved. When in actual use, the translation driving of the paper storage device is realized through the connection with the first connecting part, and the paper storage device can be reset or the translation driving of another paper storage device can be carried out after the connection is disconnected.

As a further improvement of the above technical solution, the number of the translation driving members is plural, and the plural translation driving members are in one-to-one correspondence with the paper storage device and are in driving connection. Through the technical scheme, the translation driving members can be in one-to-one correspondence with the paper storage device to realize translation driving, so that the response speed is high, and the reset waiting of the translation driving members is avoided.

As a further improvement of the above technical solution, the overturning driving member includes a driving rack and a driving gear, the driving rack is fixedly mounted on the base frame body, and the driving gear is fixedly connected with the hinge part coaxially and is meshed with the driving rack in a transmission manner. Through the technical scheme, the base frame body and the paper storage unit are in transmission connection through the driving racks and the driving gears which are meshed with each other, and when the paper storage device moves relative to the base frame body, the paper storage unit can be driven to rotate through meshing transmission of the racks and the gears.

As a further improvement of the technical scheme, the number of the driving gears is consistent with that of the paper storage devices, a plurality of the driving gears are respectively arranged in one-to-one correspondence with the paper storage devices, the driving racks extend along the translation direction of the paper storage devices, and the driving gears are in transmission engagement with the driving racks. Through the technical scheme, the plurality of paper storage devices can be meshed and transmitted with the driving racks on the base frame body through the corresponding driving gears, so that the paper storage devices can synchronously drive the rotation of the paper storage units when translating relative to the base frame body.

As a further improvement of the technical scheme, a positioning mechanism is arranged between the base frame body and the paper storage device, and the base frame body and the paper storage device are respectively fixedly connected with the positioning mechanism and elastically abutted. Through the technical scheme, the paper storage device is connected with the base frame body through the positioning mechanism, so that the paper storage device can keep static with the base frame body after translating to a specific position, and the influence caused by paper pulling during paper collection and release of other paper storage devices is avoided.

The invention also provides a paper storage method based on the paper storage equipment with the turnover driving component comprising the driving rack and the driving gear, and the paper storage unit can synchronously rotate when the translation driving component drives the paper storage device to move through the meshing transmission of the driving rack and the driving gear. Through the technical scheme, the translation action of the paper storage device and the paper collecting and releasing action of the paper storage unit can be synchronously carried out, the paper collecting and releasing action and the translation action are driven by the translation driving component, the cost is low, and the paper collecting and releasing device is convenient to maintain and simple to control.

Drawings

The invention is further described below with reference to the drawings and examples;

FIG. 1 is a schematic perspective view of an embodiment of a paper storage device according to the present invention;

FIG. 2 is a side cross-sectional view of an embodiment of a paper storage device according to the present invention;

FIG. 3 is a schematic view of an embodiment of a paper storage device according to the present invention;

FIG. 4 is a paper travel chart of an embodiment of the paper storage apparatus provided by the present invention;

FIG. 5 is a schematic perspective view of an embodiment of a paper storage device according to the present invention;

FIG. 6 is an enlarged partial view of area A of FIG. 5;

fig. 7 is a side cross-sectional view of an embodiment of a paper storage device according to the present invention.

In the figure: 10. a base frame body; 20. a paper storage device; 30. a paper collecting and releasing space; 100. a paper storage frame body; 110. a paper guide roller; 200. a paper storage unit; 210. a paper storage roller; 220. a frame; 221. a hinge part; 300. a transmission member; 310. a sprocket; 320. a chain; 400. a translational drive member; 410. a translational drive mechanism; 411. a driving motor; 412. a timing belt; 413. a synchronous pulley; 420. a translation slider; 421. the connecting cylinder; 422. a connecting block; 500. a flip drive member; 510. a drive rack; 520. and a drive gear.

Detailed Description

Reference will now be made in detail to the present embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein the accompanying drawings are used to supplement the description of the written description so that one can intuitively and intuitively understand each technical feature and overall technical scheme of the present invention, but not to limit the scope of the present invention.

In the description of the present invention, it should be understood that references to orientation descriptions such as upper, lower, front, rear, left, right, etc. are based on the orientation or positional relationship shown in the drawings, are merely for convenience of description of the present invention and to simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention.

In the description of the present invention, if there is a word description such as "a plurality" or the like, the meaning of a plurality is one or more, and the meaning of a plurality is two or more, and greater than, less than, exceeding, etc. are understood to not include the present number, and above, below, within, etc. are understood to include the present number.

In the description of the present invention, unless explicitly defined otherwise, terms such as arrangement, installation, connection, etc. should be construed broadly and the specific meaning of the terms in the present invention can be reasonably determined by a person skilled in the art in combination with the specific contents of the technical scheme.

Referring to fig. 1 to 7, the paper storing apparatus of the present invention makes the following embodiments:

a paper storage apparatus comprising: a base frame body 10 and a plurality of paper storage devices 20.

The paper storing device 20 includes: a paper storage frame 100 and a plurality of paper storage units 200. In this embodiment, the paper storing devices 20 are all disposed in the up-down direction. The paper guide rollers 110 are disposed at the upper and lower ends of the paper storage frame 100. The plurality of paper storing units 200 are disposed between the two paper guiding rollers 110 in an up-down direction. The middle part of the paper storing unit 200 has a hinge part 221 rotatably connected with the paper storing frame 100, and both ends of the paper storing unit 200 have paper storing rollers 210 parallel to each other.

The rotation axis of the paper storing unit 200 extends in the left-right direction, and the axial directions of the paper guiding roller 110 and the paper storing roller 210 each extend in the left-right direction.

The plurality of paper storing devices 20 are aligned with each other in the front-rear direction and slidably connected to the base frame 10 in the front-rear direction. The base frame body 10 is provided with a translation driving member 400 for driving the paper storing device 20 to move forward and backward with respect to the base frame body 10.

In actual use, the paper guide rollers 110 at the upper and lower ends of the paper storage device 20 serve as a paper inlet roller and a paper outlet roller, respectively. The paper roll feeding path is from the paper feeding roller into the paper storage device 20 and is fed out from the paper discharging roller. When the paper storage unit 200 rotates relative to the paper storage frame 100, the paper storage rollers 210 at two ends of the paper storage frame 100 rotate around the hinge parts 221, so that the paper roll can be turned, folded, or unfolded and laid flat, thereby realizing paper collection and paper release.

The paper storage unit 200 includes two paper storage rollers 210 and two rims 220. The two paper storage rollers 210 extend in the left-right direction, and the two frames 220 are respectively disposed at the left and right ends of the two paper storage rollers 210. The ends of the two paper storage rollers 210 are rotatably mounted at the ends of the frame 220, respectively, and the hinge 221 is disposed at the middle of the frame 220. The two paper storage rollers 210 and the two rims 220 form a rectangular frame shape.

When the paper storage amount of the paper storage device 20 is the smallest or largest, the included angle between the paper storage unit 200 and the vertical direction is smaller, the width of the paper storage device 20 in the front-rear direction is smaller, and the adjacent paper storage devices 20 can be closely arranged together. And when the paper storage unit 200 is turned over to store and release paper, the included angle between the paper storage unit 200 and the vertical direction increases, and the width of the paper storage device 20 in the front-rear direction increases.

In this embodiment, the base frame 10 is a rectangular split frame. The base frame body 10 can be fixed into the shape of the base frame body 10 by adopting square tubes, angle steel or aluminum profiles and the like through lap joint and welding modes. The paper storing devices 20 are all disposed in the space enclosed by the base frame 10. The paper storage device 20 and the base frame body 10 are connected in a sliding way through a linear sliding rail assembly extending forwards and backwards.

In this embodiment, for convenience of paper threading, the distance between two adjacent paper storing units 200 in the paper storing device 20 is greater than the distance between paper storing rollers 210 at two ends of the paper storing unit 200. The distance between two adjacent paper storing units 200 is larger than the distance between two paper storing rollers 210, so that the two adjacent paper storing units 200 can turn over 360 degrees and rotate synchronously without interference. When the paper passes through, the two adjacent paper storage units 200 are staggered, and the paper can directly pass through the space between the two paper storage rollers 210 of the paper storage units 200 from the paper inlet roller to the paper outlet roller, so that the paper feeding device is very convenient.

In a further embodiment, each of the paper storing units 200 in the paper storing device 20 can rotate simultaneously, and a transmission member 300 is disposed between the plurality of paper storing units 200, so that the plurality of paper storing units 200 are connected synchronously. Specifically, the drive member 300 is a chain drive assembly including a sprocket 310 and a chain 320. The hinge part 221 of the paper storage unit 200 is coaxially and fixedly provided with a chain wheel 310, and the chain wheels 310 of adjacent paper storage units 200 are in transmission connection through a chain 320. In other implementations, the transmission member 300 may also be driven by a belt, gear, worm, or other transmission means.

In the embodiment in which the paper storage units 200 are synchronously connected to each other, the paper storage device 20 may be provided with only one overturning driving member 500 for driving the paper storage units 200 to rotate relative to the paper storage frame 100. The inversion driving unit 500 may employ a rotary driving element such as a rotary cylinder, a servo motor, a stepping motor, or a pneumatic motor.

In other embodiments, the distance between two adjacent storage units 200 in the storage device 20 is smaller than the distance between the storage rollers 210 at two ends of the storage unit 200, but larger than the distance between the hinge 221 of the storage unit 200 and the storage rollers 210. The paper storage unit 200 in the paper storage device 20 rotates in sequence to store and release paper. In these embodiments, the number of inversion driving members 500 is identical to the number of the paper storage units 200 and is set in one-to-one correspondence.

The translation driving member 400 can drive the paper storing device 20 to move back and forth. In use, the paper storage device 20 full of paper is closely arranged at the front end of the paper storage device, while the paper storage device 20 with the least paper storage amount is arranged at the rear end of the paper storage device, and a paper receiving and releasing space 30 for receiving and releasing paper by the single paper storage device 20 is reserved between the paper storage device 20 and the paper storage device. The paper receiving and releasing space 30 is larger than the distance between the two paper storing rollers 210 of the paper storing unit 200, so that the paper storing unit 200 in the paper receiving and releasing space 30 can be turned over without collision interference.

In the process of storing paper, the paper storing device 20 arranged at the rear side sequentially moves forward to the paper collecting and releasing space 30 one by one, and then moves forward to be arranged after the paper is fully stored. In contrast, the paper feeding process is that the paper storage devices 20 arranged at the front side sequentially move backward to the paper receiving and feeding space 30 one by one, and are arranged backward after paper feeding is completed.

It should be noted that the paper receiving and releasing space 30 is a virtual feature, and is provided for convenience in accurately describing the action sequence and principle of the paper storage device. The position of the paper receiving and releasing space 30 is changed according to the number of the paper storing devices 20 at the front and rear ends of the paper storing device. The more the paper storing devices 20 are arranged at the front end, the more the paper storing space 30 is positioned, and conversely, the more the paper storing space is positioned.

In this embodiment, the paper storing device 20 has a first connecting portion, and the translational driving end has a second connecting portion that is retractable toward the paper storing device 20. When the second connection portion protrudes toward the sheet storage device 20, the second connection portion is connected with the first connection portion.

In this embodiment, the translation driving member 400 includes: the translation driving mechanism 410 and the translation slider 420. The translation sliding block 420 is slidably mounted on the base frame 10 along the front-rear direction. The translation driving end is disposed on the translation sliding block 420. The translation driving mechanism 410 is in transmission connection with the translation sliding block 420, and enables the translation sliding block 420 to move back and forth relative to the base frame body 10. The translation driving mechanism 410 may be a linear driving member such as an air cylinder, an electric push rod, a hydraulic push rod or a screw nut driving assembly.

In this embodiment, the translation slider 420 is provided with a connection cylinder 421 and a connection block 422 disposed in the left-right direction. The second connection part is disposed at one end of the connection block 422 facing the paper storage device 20. The second connecting portion has a U-shape, and has a connecting slot into which the frame 220 of the paper storage device 20 can be clamped. The connecting cylinder 421 is configured to drive the connecting block 422 toward or away from the paper storing device 20.

When the connecting cylinder 421 drives the connecting block 422 to move, and the second connecting portion is clamped on the frame 220 of the paper storage device 20, the translation driving mechanism 410 drives the translation slider 420 to move, and the corresponding paper storage device 20 moves back and forth relative to the base frame 10.

In this embodiment, the translational driving members 400 are symmetrically disposed on the left and right sides of the base frame 10. The translation driving members 400 provided in pairs are synchronously operated with the left and right ends of the paper storing device 20 so as to smoothly move forward and backward.

In other embodiments, the first and second connection portions may be pin holes and pins, respectively. The pin hole and the bolt are coaxially arranged and perpendicular to the front-rear direction. The first and second connection portions are provided between the paper storing device 20 and the base frame body 10. The axial direction of the bolt is arranged along the left-right direction. The bolt is slidably mounted on the translation sliding block 420 along the left-right direction, and the translation sliding block 420 is provided with an air cylinder for driving the bolt to stretch out and draw back along the left-right direction.

In other embodiments, the first connecting portion and the second connecting portion may be other groove structures capable of being mutually embedded, or may be connected through a clamping groove and a clamping block which are mutually clamped.

When the translation slider 420 moves to be aligned with the corresponding paper storage device 20, the first connection portion and the second connection portion are also aligned along the left-right direction, and after the second connection portion extending toward the paper storage device 20 is connected with the first connection portion, the translation slider 420 drives the paper storage device 20 to move back and forth synchronously. After moving into position, the second link is retracted and the translation block 420 is moved into alignment with another paper store 20. So repeatedly, realize one translation drive member 400 drives each in proper order the effect that paper storage device 20 removed, the cost is lower, and simple structure, convenient maintenance.

In other embodiments, the number of translational drive members 400 may be two. The paper storing device 20 has two first connecting portions which are offset in the front-rear direction. The second connection portions of the two translational driving members 400 are aligned with the two first connection portions in the front-rear direction, respectively. In actual use, the two translation driving members 400 alternately act to respectively drive different paper storage devices 20 to move.

As shown in fig. 5, further, the translation driving member 400 includes two translation blocks 420 therein. The translation driving mechanism 410 is a synchronous belt transmission mechanism driven by a motor and extending forwards and backwards. The translational drive mechanism 410 includes a drive motor 411, a timing belt 412, and two timing pulleys 413. The two synchronous pulleys 413 are disposed in front and back, and the synchronous belt 412 is wound around the two synchronous pulleys 413 synchronously. The driving motor 411 is in driving connection with one of the timing pulleys 413. The two translation sliders 420 are respectively and fixedly connected with two belt surfaces of the synchronous belt 412. When the driving motor 411 drives the synchronous pulley 413 to rotate, the two translation sliders 420 move reversely in the front-back direction. In actual use, the second connection portions on the two translation sliders 420 sequentially extend, and the alternate motion realizes the translation driving of different paper storage devices 20. The two translation sliders 420 are driven by the synchronous belt drive mechanism to move in opposite directions all the time, and when one translation slider 420 moves to the front part of the paper storage device, the other translation slider 420 moves to the rear part of the paper storage device. The reset stroke can be greatly reduced and the efficiency can be improved by the alternate action of the two translation sliding blocks 420.

In other embodiments, the number of the translation driving members 400 may be identical to the number of the paper storing devices 20, and a plurality of the translation driving members 400 are disposed in one-to-one correspondence with the paper storing devices 20. The first connecting part and the second connecting part are fixedly connected or detachably connected with each other, and the second connecting part does not need to stretch out and draw back. The first connection portions of the different paper storing devices 20 and the corresponding translation driving members 400 are staggered in the front-rear direction, so that interference is avoided.

In these embodiments, the paper storing device 20 can be moved back and forth by the translation driving member 400. The inversion driving member 500 includes: a drive rack 510 and a drive gear 520. The driving gear 520 is fixedly connected to the hinge 221 of the paper storing unit 200 coaxially. The drive rack 510 and the drive gear 520 are in driving engagement with each other. The driving rack 510 extends in the front-rear direction and is fixedly connected to the base frame 10.

When the translation driving member 400 drives the paper storage device 20 to move back and forth, the driving gear 520 moves back and forth along with the paper storage device 20 relative to the driving gear 520, so as to drive the paper storage unit 200 to rotate around the hinge 221, so that the paper storage unit 200 can rotate under the transmission action of the gear rack in the front and back translation process of the paper storage device 20, and the synchronous paper collecting and releasing actions and translation actions are realized. The forward and backward movement of the paper storage device 20 can be converted into the rotation driving of the paper storage unit 200 through the driving rack 510 and the driving gear 520, so that the paper storage unit 200 can rotate to collect and release paper while the forward and backward movement of the paper storage device 20 is realized.

In a further embodiment, the transmission ratio of the driving gear 520 and the driving rack 510 can be set according to the moving distance of the paper storing device 20, and when the paper storing device 20 moves from the rear end to the front end of the paper receiving and releasing space 30, the rotation angle of the paper storing unit 200 under the action of the gear rack is just a multiple of 180 degrees, so that the paper storing device 20 can keep a small width arranged on the front and rear sides of the paper storing apparatus.

To achieve a setting of the rotation angle of the paper storing unit 200 during the translation of the paper storing device 20, in a further embodiment, a transmission gear is provided between the driving gear 520 and the driving rack 510. The transmission gear is rotatably mounted on the paper storage device 20 and is respectively meshed with the driving gear 520 and the driving rack 510 for transmission.

In order to avoid collision with the adjacent sheet storage device 20, it is preferable that the sheet storage unit 200 is rotated to the horizontal direction, and the distance of the sheet storage device 20 to be moved forward and backward is greater than the distance between the sheet storage roller 210 and the hinge 221.

In summary, in one embodiment of the paper storage apparatus of the present invention: the second connection portion of the translation driving member 400 is sequentially connected to each first connection portion, so as to drive each paper storage device 20 to move back and forth. The plurality of paper storing units 200 in the paper storing device 20 are connected to each other in synchronization by the transmission member 300. The hinge 221 of one of the paper storing units 200 of the paper storing device 20 is connected with the base frame 10 through a driving rack 510 and a driving gear 520. When the translation driving member 400 drives the paper storing device 20 to translate, the plurality of paper storing units 200 therein synchronously rotate to store and release paper. The paper storage equipment in the embodiment has the advantages of less power elements, compact structure, low cost and large paper storage quantity.

In another embodiment, the paper storing device 20 may translate into the paper storing space 30, and then rotate the paper storing unit 200 by the overturning driving member 500 to store paper.

In a further embodiment, a positioning mechanism is provided between the base frame 10 and the paper storage device 20. The positioning mechanism is used for connecting the base frame body 10 and the paper storage device 20. The paper storage devices 20 closely arranged at the front end and the rear end of the paper storage device are connected with the base frame body 10 through the positioning mechanism arranged on the paper storage device, so that when the paper storage devices 20 in the paper collecting and releasing space 30 collect and release paper, other paper storage devices 20 at the front side and the rear side are driven due to paper pulling.

In some embodiments, the positioning mechanism is fixedly mounted to the paper store 20. The positioning mechanism is provided with an elastic pin which can elastically stretch and retract. The base frame body 10 is provided with positioning holes corresponding to the elastic pins. One end of the elastic pin is elastically inserted into the positioning hole. Further, the positioning mechanism is arranged beside the first connecting portion. The second connecting portion is connected with the first connecting portion and can jack the elastic pin, so that the positioning mechanism is disconnected with the base frame body 10.

In practical use, the paper feeding rollers of two adjacent paper storing devices 20 are respectively disposed on the upper and lower sides, that is, in two adjacent paper storing devices 20, the paper feeding roller of one paper storing device 20 is disposed on the same side as the paper discharging roller of the other paper storing device 20. The paper between two adjacent paper storage devices 20 can be directly transported and transited at the upper side and the lower side of the paper storage devices 20, so that the space between the adjacent paper storage devices 20 is avoided.

The paper between the paper inlet roller and the paper outlet roller is wound and folded by the paper storage unit 200. For the paper with high paper surface quality requirement, the paper storage unit 200 can perform single-layer winding and folding on the paper, and the paper cannot be overlapped in a reverse way. In some embodiments, where the sheet stock is in a large demand and no special protection is required for the sheet surface, the sheet stock unit 200 is capable of winding the sheet multiple times so as to be overlapped and wound between two sheet stock rollers 210, as shown in fig. 7.

In these embodiments, the paper on the paper storage unit 200 that completes the paper storage cannot move relative to the paper storage unit 200 any more, so a plurality of the paper storage units 200 cannot be connected in a synchronous transmission manner, and a sufficient space needs to be left between adjacent paper storage units 200 to avoid collision. In the paper collecting and releasing process, the plurality of paper storing units 200 sequentially rotate to collect and release paper.

In addition, the embodiments of the paper storing device 20 according to the present invention may refer to various examples of the paper storing device 20 in the above-listed paper storing apparatus, and various examples will not be described herein.

The paper storing method of the present invention is based on the embodiment that the flipping driving means 500 employs a driving rack 510 and a driving gear 520. In the paper storing method, the driving rack 510 and the driving gear 520 are engaged to drive the paper storing unit 200 to synchronously rotate when the translation driving member 400 drives the paper storing device 20 to move, so as to synchronously perform the translation motion of the paper storing device 20 and the paper collecting and releasing motion of the paper storing unit 200.

In the description of the present specification, reference to the terms "one embodiment," "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Although embodiments of the present invention have been shown and described, various changes, modifications, substitutions and alterations can be made herein by one having ordinary skill in the art without departing from the spirit and scope of the present invention as defined by the following claims and the equivalents thereof.

Claims (8)

1. A paper storage device, characterized in that: comprising the following steps: a base frame body (10) and a plurality of paper storage devices (20);

the paper storage device (20) comprises a paper storage frame body (100), a paper storage unit (200) and a turnover driving component (500), paper guide rollers (110) are arranged at two ends of the paper storage frame body (100), a hinge part (221) rotationally connected with the paper storage frame body (100) is arranged in the middle of the paper storage unit (200), and paper storage rollers (210) parallel to each other are arranged at two ends of the paper storage unit (200); the rotation axes of the paper guide roller (110), the paper storage roller (210) and the paper storage unit (200) are parallel to each other;

the turnover driving component (500) is used for driving the paper storage unit (200) to rotate relative to the paper storage frame body (100), the turnover driving component (500) comprises a driving rack (510) and a driving gear (520), the driving rack (510) is fixedly arranged on the base frame body (10), and the driving gear (520) is fixedly connected with the hinge part (221) in a coaxial way and is in transmission engagement with the driving rack (510);

the paper storage devices (20) are slidably connected with the base frame body (10) along the same direction, the base frame body (10) is provided with a translation driving member (400), and the translation driving member (400) is provided with a translation driving end which is in transmission connection with the paper storage devices (20) and enables the paper storage devices (20) to move relative to the base frame body (10);

the number of the driving gears (520) is consistent with that of the paper storage devices (20), a plurality of the driving gears (520) are respectively arranged in one-to-one correspondence with the paper storage devices (20), the driving racks (510) extend along the translation direction of the paper storage devices (20), and a plurality of the driving gears (520) are in transmission engagement with the driving racks (510).

2. The paper storage device of claim 1, wherein: the two paper guide rollers (110) of the paper storage frame body (100) are arranged up and down, the number of the paper storage units (200) is multiple, and the multiple paper storage units (200) are arranged between the two paper guide rollers (110) along the up-down direction.

3. The paper storage device of claim 2, wherein: a transmission member (300) is arranged among the plurality of paper storage units (200), and the transmission member (300) is respectively in transmission connection with the plurality of paper storage units (200) so that the plurality of paper storage units (200) synchronously rotate.

4. The paper storage device of claim 2, wherein: the distance between the adjacent paper storage units (200) is larger than the distance between the paper storage rollers (210) at the two ends of the paper storage units (200).

5. The paper storage device of claim 1, wherein: the translation driving end is provided with a second connecting part which can stretch towards the paper storage device (20), and when the second connecting part stretches out towards the paper storage device (20), the second connecting part is connected with the paper storage device (20).

6. The paper storage apparatus of claim 5, wherein: the number of the translation driving members (400) is multiple, and the translation driving members (400) are in one-to-one correspondence with and in driving connection with the paper storage device (20).

7. The paper storage device of claim 1, wherein: a positioning mechanism used for connecting the base frame body (10) and the paper storage device (20) is arranged between the base frame body (10) and the paper storage device (20).

8. A method of storing paper using the paper storing apparatus of any one of claims 1 to 7, characterized in that: the paper storage unit (200) can rotate when the translation driving component (400) drives the paper storage device (20) to move through the meshing transmission of the driving rack (510) and the driving gear (520).