CN113263851B - Document binding device - Google Patents

Abstract

The invention discloses a document binding device which comprises a document transmission module, a document alignment module and a document binding module, wherein the document transmission module is used for conveying a document to the document alignment module so that the document alignment module can turn over a preset angle according to a preset direction to align the document and be bound by the document binding module. The document binding device can automatically align and bind the document, and improves the document binding efficiency.

Description

Document binding device

Technical Field

The invention relates to the field of office stationery, in particular to a document binding device.

Background

Documents such as documents, important materials of companies, archives and the like need to be bound and stored. At present, manual arrangement and alignment are adopted in the process of binding documents, and then binding is carried out. The binding mode not only additionally occupies certain labor, but also has a complex process, and causes low binding efficiency.

Therefore, how to improve the binding efficiency becomes a technical problem to be solved by those skilled in the art.

Disclosure of Invention

The invention aims to provide a document binding device which can improve the efficiency of binding documents.

In order to achieve the above object, the present invention provides a document binding apparatus, including a document transmission module, a document alignment module, and a document binding module, where the document transmission module is configured to transmit a document to the document alignment module, so that the document alignment module turns over a preset angle according to a preset direction to align the document and provide for the document binding module to bind.

Optionally, the document aligning module includes a document box for carrying a document, aligning baffles disposed on two adjacent sides of the document box, and a first turnover mechanism and a second turnover mechanism for driving the document box to turn over toward the aligning baffles on the corresponding sides, respectively.

Optionally, the document box is provided with an annular outer rotating sleeve at the periphery thereof, and further comprises a support frame for supporting the outer rotating sleeve, the first turnover mechanism is arranged between the support frame and the outer rotating sleeve, and the second turnover mechanism is arranged between the outer rotating sleeve and the document box.

Optionally, the first turnover mechanism includes a first turnover motor, a first driving gear, and a first driven gear engaged with the first driving gear; one end of a gear shaft of the first driven gear is rotatably connected with the support frame, and the other end of the gear shaft of the first driven gear is fixedly connected with the outer rotating sleeve.

Optionally, the second turnover mechanism includes a second turnover motor, a second driving gear, and a second driven gear engaged with the second driving gear; two ends of a gear shaft of the second driven gear are rotatably connected with the outer rotating sleeve, and the document box is fixedly connected with the gear shaft of the second driven gear.

Optionally, the document transmission module includes a plurality of transmission belts arranged in parallel, a driving mechanism connected to the transmission belts, a floating fixing plate erected above the transmission belts, and a floating wheel rotatably connected to the floating fixing plate and used for pressing down the document to be attached to the transmission belts.

Optionally, a photographing module is arranged above the document transmission module.

Optionally, a falling slideway is arranged below the document transmission module, and the alignment baffle is arranged on one side of the document box far away from the falling slideway.

Optionally, one side of the document box, which is far away from the falling slideway, is further provided with a binding gap, and the binding position of the document binding module is arranged at the binding gap.

Optionally, the document binding module includes a stapler body, a stapler mounting bracket, and a pushing mechanism that drives the stapler body to advance and retract along the stapler mounting bracket toward the binding gap.

Compared with the background technology, the document binding device provided by the invention can convey the document to the document aligning module by the document transmission module after receiving the document, the document aligning module enables the document to be aligned along one side under the action of gravity through overturning, and the document binding module binds the document after alignment without manual alignment, so that the working strength of binding personnel is reduced, and the binding efficiency of the document is improved.

Drawings

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

FIG. 1 is a schematic diagram of a document binding apparatus according to an embodiment of the present invention;

FIG. 2 is a top view of the document binding apparatus;

FIG. 3 is a schematic diagram of the document transport module of FIG. 1;

FIG. 4 is a schematic diagram of the document alignment module of FIG. 1;

FIG. 5 is a schematic diagram of the document binding module of FIG. 1.

Wherein:

01-document transmission module, 02-photographing module, 03-document alignment module, 04-document binding module and 05-falling slideway;

0101-transmission channel, 0102-transmission belt, 0103-transmission belt wheel, 0104-floating wheel, 0105-floating fixed plate, 0106-driving motor, and 0107-driving belt;

0301-supporting frame, 0302-outer turnover cover, 0303-file box, 0304-first turnover motor, 0305-second turnover motor, 0306-first driving gear, 0307-first driven gear, 0308-second driving gear, 0309-second driven gear and 0310-alignment baffle;

0401-stapler mount, 0402-stepper motor, 0403-stapler body, 0404-stapler mount, 0405-slide, 0406-lead screw, 0407-slider.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In order that those skilled in the art will better understand the disclosure, the invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1 to 5, fig. 1 is a schematic diagram of a document binding apparatus according to an embodiment of the present invention, fig. 2 is a top view of the document binding apparatus, fig. 3 is a schematic diagram of a document transmission module in fig. 1, fig. 4 is a schematic diagram of a document alignment module in fig. 1, and fig. 5 is a schematic diagram of a document binding module in fig. 1.

The document binding device provided by the invention comprises a document transmission module 01, a document alignment module 03 and a document binding module 04, binding personnel only need to put documents into the document binding device from an inlet, the document transmission module 01 can convey the documents to the document alignment module 03, the document alignment module 03 turns over, so that the documents are aligned along one side under the action of gravity, and the documents are bound by the document binding module 04 after being aligned, so that the automatic binding alignment of the documents is realized, and the binding efficiency of the documents is improved.

In the specific embodiment provided by the present invention, the document transmission module 01 is provided as shown in fig. 1 to fig. 3, the document transmission module 01 includes a transmission channel 0101 and a plurality of output transmission belts 0102 arranged in parallel along the transmission channel 0101, two ends of the transmission channel 0101 are connected to a belt transmission pulley 0103 shaft and a belt transmission pulley 0103, a driving mechanism for driving the transmission pulley 0103 shaft to rotate is arranged at the outer side, the driving mechanism includes a driving motor 0106 and a driving belt 0107, the driving motor 0106 drives the transmission pulley 0103 shaft to rotate through the driving belt 0107, and further drives the transmission belt 0102 to move, so as to realize document transportation.

Preferably, in order to prevent the document from being folded or slipping with respect to the conveying belt 0102, the document conveying module 01 further includes a floating wheel 0104 for pressing the document down against the conveying belt 0102. Particularly, transmission channel 0101's both ends all set up the play floating fixed plate 0105 of perpendicular transmission belt 0102 direction of delivery, floating fixed plate 0105 is located the top of transmission band, and floating fixed plate 0105 runs through the opening with predetermineeing the interval, the opening part rotates and connects floating wheel 0104, floating wheel 0104 rotates and connects elastic support, fix on floating fixed plate 0105 through elastic support, elastic support itself has certain elasticity, can realize the fluctuation of floating wheel 0104 within a certain range, thereby guarantee that the pressure to the document is suitable, can't pass through between transmission belt 0102 and the floating wheel 0104 when avoiding the document too thick simultaneously.

The document transport module 01 is arranged as shown in fig. 1, fig. 2 and fig. 4, and the document alignment module 03 mainly includes a document box 0303 for carrying documents, alignment baffles 0310 arranged at two adjacent sides of the document box 0303, and a first turnover mechanism and a second turnover mechanism for driving the document box 0303 to turn over so that the documents can be aligned with the alignment baffles 0310 under the action of gravity. The document box 0303 is a rectangular plate-shaped structure, and has a size larger than that of normal A4 paper, and in the document receiving state, the document box 0303 is kept horizontal and has a height slightly lower than that of the conveying belt 0102. The aligning barrier 0310 includes a first barrier disposed on a side of the document box 0303 remote from the document transport module 01 and a second barrier disposed adjacent to the first barrier, so that the document can enter the document aligning module 03 from the document transport module 01 and slide out from a side of the document box 0303 adjacent to the document transport module 01 after the binding is completed.

To realize the rotation of the document box 0303 toward the aligning baffle 0310, that is, toward the first baffle and the second baffle in turn, the document box 0303 is provided at the periphery thereof with an outer flip 0302 having a rectangular ring shape and a pair of support frames 0301 for rotatably supporting the outer flip 0302. The first turnover mechanism is arranged between the outer turnover sleeve 0302 and the support frame 0301 and is used for driving the outer turnover sleeve 0302 to overturn in a first direction relative to the support frame 0301; the second turnover mechanism is arranged between the outer turnover sleeve 0302 and the document box 0303 and is used for driving the document box 0303 to rotate in the second direction relative to the outer turnover sleeve 0302, and through the turnover of the first turnover mechanism and the second turnover mechanism, a document loaded in the document box 0303 is respectively attached to the first baffle and the second baffle under the action of gravity, so that the document is aligned.

First tilting mechanism includes first upset motor 0304, first driving gear 0306 and first driven gear 0307, one of them support frame 0301 rotates through the pivot and is connected with the one end of the pivot cover that turns up, another support frame 0301 is then used for installing first upset motor 0304, first driving gear 0306 is installed on first upset motor 0304, connection support frame 0301 is rotated to first driven gear 0307's gear shaft one end, the other end and the cover 0302 fixed connection that turns up, realize the meshing of first driving gear 0306 and first driven gear 0307. Therefore, when the first flip motor 0304 drives the first driving gear 0306 to drive the first driven gear 0307 to rotate, the outer flip sleeve 0302 and the document box 0303 are driven to flip integrally, so that the alignment baffle 0310 is located at the lowest point of the document box 0303, and the document is attached to the alignment baffle 0310 under the action of gravity to realize alignment of one side of the document.

The second turnover mechanism comprises a second turnover motor 0305, a second driving gear 0308 and a second driven gear 0309, the second turnover motor 0305 and the second driving gear 0308 are installed on the outer turnover sleeve 0302, the gear shaft of the second driven gear 0309 is rotatably connected to the middle of the outer turnover sleeve 0302, the second driving gear 0308 and the second driven gear 0309 are meshed, and the document box 0303 is fixedly connected to the gear shaft of the second driven gear 0309 in a bottom welding mode or other modes. When the second flip motor 0305 drives the second driving gear 0308 to drive the second driven gear 0309 to rotate, the gear shaft of the second driven gear 0309 drives the document box 0303 to flip integrally, so that the other aligning baffle 0310 is located at the lowest point of the document box 0303, and the document is aligned on the other side by being attached to the aligning baffle 0310 under the action of gravity. The first turnover mechanism and the second turnover mechanism move independently, and the alignment of the two side edges of the document is realized through sequential turnover.

In the above embodiment, in order to facilitate the binding of the aligned documents, a corner of the document box 0303 is provided with a binding notch, and the binding position of the document binding module 04 is located at the binding notch. In order to avoid the influence of the document binding module 04 on the flip alignment of the document alignment module 03, the document binding module 04 provided in the present application is configured as shown in fig. 1 and 5. The document binding module 04 includes a stapler body 0403 and a stapler mounting bracket 0401, and the stapler mounting bracket 0401 is provided with a slide table 0405 and a pushing mechanism for driving the stapler body 0403 to advance and retreat toward the binding notch along the slide table 0405. In the process of document conveying and aligning, the stapler body 0403 is far away from the binding gap, when the document is conveyed in place and overturned for aligning, the pushing mechanism pushes the stapler body 0403 to move towards the binding gap along the sliding table 0405, and the stapler body 0403 is pressed down to realize binding after the document is moved in place. The advancing mechanism specifically includes a stepping motor 0402, a lead screw 0406 and a slider 0407 connected with the lead screw 0406, the stapler body 0403 is connected with the slider 0407 through a stapler support 0404, the slider 0407 is arranged on the sliding table 0405 and connected with the lead screw 0406, the movement of the slider 0407 along the sliding table 0405 is realized through the forward rotation or the reverse rotation of the stepping motor 0402, and then the advancing of the stapler body 0403 towards the binding gap and the moving away from the binding gap are completed.

In a further embodiment, a falling chute 05 is obliquely arranged below the document transport module 01, and a side of the document tray 0303 where the aligning baffle 0310 is not provided, that is, the right side shown in fig. 1, is disposed toward the falling chute 05. When the document binding is completed, the document box 0303 is rotated to the right side as shown in fig. 1, and the bound document slides down to the falling chute 05 and is output from the document outlet along the falling chute 05. Since the aligning baffle 0310 is disposed on the left side of the document box 0303 shown in fig. 1, the document box 0303 rotates to the left side during document alignment, and the aligning baffle 0310 realizes document alignment while preventing a document from sliding out; after the document is aligned, the document is rotated to a horizontal state, and after the document binding module 04 binds the document, the document box 0303 is rotated to the right side again, so that the document slides down to the falling slideway 05 from the right side of the document box 0303 where the aligning baffle 0310 is not arranged.

The document binding device that this application provided further includes the module 02 of shooing, and the module 02 of shooing passes through the support to be fixed in the top of document transmission module 01, shoots the retention to the document of binding, reduces the appearance of binding the error condition.

It should be noted that in this specification, relational terms such as first and second, and the like are used solely to distinguish one entity from another entity without necessarily requiring or implying any actual such relationship or order between such entities.

The document binding apparatus provided by the present invention is described in detail above. The principles and embodiments of the present invention are explained herein using specific examples, which are presented only to assist in understanding the method and its core concepts. It should be noted that, for those skilled in the art, it is possible to make various improvements and modifications to the present invention without departing from the principle of the present invention, and those improvements and modifications also fall within the scope of the claims of the present invention.

Claims (2)

1. A document binding device is characterized by comprising a document transmission module (01), a document alignment module (03) and a document binding module (04), wherein the document transmission module (01) is used for conveying a document to the document alignment module (03), so that the document alignment module (03) can be turned over by a preset angle according to a preset direction to align the document and bind the document with the document binding module (04);

the document alignment module (03) comprises a document box (0303) for bearing a document, alignment baffles (0310) arranged on two adjacent sides of the document box (0303), and a first turnover mechanism and a second turnover mechanism for driving the document box (0303) to turn over towards the alignment baffles (0310) on the corresponding sides respectively;

the periphery of the document box (0303) is provided with an annular outward-turning sleeve (0302), the document box further comprises a support frame (0301) for supporting the outward-turning sleeve (0302), the first turnover mechanism is arranged between the support frame (0301) and the outward-turning sleeve (0302), and the second turnover mechanism is arranged between the outward-turning sleeve (0302) and the document box (0303); said first flipping mechanism comprising a first flipping motor (0304), a first driving gear (0306), and a first driven gear (0307) meshed with said first driving gear (0306); one end of a gear shaft of the first driven gear (0307) is rotatably connected with the support frame (0301), and the other end of the gear shaft is fixedly connected with the outer turnover sleeve (0302); the second turnover mechanism includes a second turnover motor (0305), a second driving gear (0308) and a second driven gear (0309) engaged with the second driving gear (0308); two ends of a gear shaft of the second driven gear (0309) are rotatably connected with the outer rotating sleeve (0302), and the document box (0303) is fixedly connected with the gear shaft of the second driven gear (0309);

the document transmission module (01) comprises a plurality of transmission belts (0102) arranged in parallel, a driving mechanism connected with the transmission belts (0102), a floating fixing plate (0105) erected above the transmission belts (0102) and a floating wheel (0104) rotationally connected with the floating fixing plate (0105) and used for pressing down a document to be attached to the transmission belts (0102);

a falling slideway (05) is arranged below the document transmission module (01), and the aligning baffle plate (0310) is arranged on one side, far away from the falling slideway (05), of the document box (0303); one side of the document box (0303) far away from the falling slideway (05) is also provided with a binding gap, and the binding position of the document binding module (04) is arranged at the binding gap; the document binding module (04) includes a stapler body (0403), a stapler mounting bracket (0401), and a pushing mechanism that drives the stapler body (0403) to advance and retreat toward the binding gap along the stapler mounting bracket (0401).

2. The document binding apparatus according to claim 1, wherein a photographing module (02) is provided above the document transport module (01).

Images