CN109016983B - Automatic page-adding bookbinding equipment - Google Patents

Abstract

The invention discloses automatic page-adding and binding equipment, which comprises a control system, a paper feeder and a binding and folding machine, wherein the paper feeder and the binding and folding machine are arranged in series according to an operation sequence, the paper feeder comprises at least two paper supply layers, a code scanner is arranged in at least one paper supply layer, and a cutter die device is arranged in at least one paper supply layer. The paper feeder designed in the invention has the advantages that at least one part of the paper supply layers has the scanning function, the paper pages are identified by scanning bar codes or other marks printed on a certain set area of certain paper in advance, and the paper pages are sequentially conveyed to the temporary storage. At least a part of the paper feeding layer is provided with a cutting die device which can be used for impressing or printing broken lines on thicker paper. The invention provides an automatic collating system, which solves the problems of collating, indentation and the like which need manual processing in the past, greatly improves the working efficiency and can be widely applied to the technical field of printing.

Description

Automatic page-adding bookbinding equipment

Technical Field

The invention relates to the technical field of printing, in particular to automatic page-adding and binding equipment.

Background

For a long time, in the digital fast printing technology, book and periodical products are basically only bound by wireless glue. With the development of product differentiation, more and more fast print shops try to develop saddle-stitched book products. In the production link, the products relate to treatment processes such as indentation, dotted lines, inserts and the like, and in the existing production flow, the treatment processes can only be completed by manually dividing into a plurality of working procedures, so that the working efficiency is low. In addition, with the development and wide application of digital printing, the traditional collating system cannot meet the requirements of intelligent and flexible collating. The traditional gathering system cannot complete gathering of books with different pages at one time on line, cannot realize the functions of automatic page inserting and cover inserting, and cannot realize the function of automatic indentation or dotted line of paper. Traditional gathering systems have not introduced intelligent detection gathering systems.

Disclosure of Invention

The invention aims to provide automatic page-adding and binding equipment which can realize the functions of automatic page assembly and automatic page and can realize the function of automatic indentation or dotted line.

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

the automatic page-adding and binding equipment comprises a control system, a paper feeder and a binding and folding machine, wherein the paper feeder and the binding and folding machine are arranged in series according to an operation sequence, the paper feeder comprises at least two paper supply layers, and a cutting die device is arranged on at least one paper supply layer.

Further, a code scanner is arranged in at least one of the paper supply layers.

Further, still include the temporary storage, the temporary storage is located between sheet feeder and the book machine, the temporary storage includes the interarea board and parallel arrangement two second splint of side on the interarea board, two the region between the second splint is the paper feed passageway, adjustable two is arranged to the downside of interarea board the passageway width adjusting part of second splint position.

Further, the channel width adjusting assembly comprises an adjusting plate arranged on the main panel and two moving members arranged on the adjusting plate, rack structures are arranged on the two moving members in the conveying direction perpendicular to the paper conveying channel, the two rack structures are arranged oppositely, an adjusting gear is arranged between the two moving members, the adjusting gear is meshed with the two rack structures, and a clamping plate fixing member capable of fixing the moving members is uniformly arranged on each moving member.

Furthermore, two second guide grooves into which the clamping plate fixing pieces can extend are arranged on the main panel, and the axes of the two second guide grooves are perpendicular to the conveying direction of the paper conveying channel.

Furthermore, two second guide grooves into which the clamping plate fixing pieces can extend are arranged on the main panel, and the axes of the two second guide grooves are perpendicular to the conveying direction of the paper conveying channel.

Further, a portal frame is arranged on the upper side face of the main panel, the portal frame is located at one end, close to the binding and folding machine, of the temporary storage, a second paper guide assembly is arranged on the paper conveying channel, the second paper guide assembly is located below a cross beam of the portal frame, and a second paper guide roller matched with the second paper guide assembly is installed on the lower side of the cross beam of the portal frame.

Furthermore, the second paper guide roller is arranged below the beam of the portal frame through two second upright posts sleeved with buffer springs.

Further, each paper supply layer comprises a horizontal paper supporting plate, a first paper guide assembly and two first clamping plates, wherein the first paper guide assembly is arranged above the paper supporting plate, the two first clamping plates are arranged vertically, the paper supporting plate is arranged between the two first clamping plates, the first paper guide assembly is arranged at an outlet of the paper supply layer, at least one first guide groove is uniformly arranged on each of the two first clamping plates, the axis of each first guide groove is in the vertical direction, and a sliding protrusion matched with each first guide groove is arranged on the paper supporting plate.

Further, the cutting die device is arranged at an outlet of the paper feeding layer, and comprises at least one cutting die type of an indentation cutting assembly, a broken line pressing cutting assembly and a punching cutting assembly.

Further, the temporary storage is arranged in the stapler.

Has the advantages that: the invention designs a paper feeder with at least two paper supply layers, wherein a part of the paper supply layers have scanning function, and the paper pages are identified by scanning bar codes or other marks printed on a certain set area of certain paper in advance and are sequentially conveyed to a temporary storage. A cutting die device is arranged on one part of the paper feeding layer and can be used for impressing or printing broken lines on thicker paper. The invention provides an automatic collating system, which solves the problems of collating, indentation and the like which need manual processing in the past, greatly improves the working efficiency and can be widely applied to the technical field of printing.

Drawings

FIG. 1 is an assembly view of the present invention;

FIG. 2 is an internal structural view of the sheet feeder;

FIG. 3 is a front view of the internal structure of the sheet feeder;

FIG. 4 is an enlarged partial view at E in FIG. 3;

FIG. 5 is a structural view of a side wall of the feeder;

FIG. 6 is a block diagram of the cutting die assembly;

FIG. 7 is an axial view of the knife die assembly;

FIG. 8 is a top view of the register;

FIG. 9 is a bottom view of the register;

FIG. 10 is a side view of the temporary storage;

FIG. 11 is a view taken along line A of FIG. 10;

FIG. 12 is a view taken along line B of FIG. 10;

FIG. 13 is a cross-sectional view taken at C-C of FIG. 11;

FIG. 14 is a cross-sectional view taken along line D-D of FIG. 11;

FIG. 15 is a front view of the channel width adjustment assembly;

fig. 16 is a rear view of the channel width adjusting assembly.

Detailed Description

The present invention will be further described with reference to fig. 1 to 16.

The first embodiment is as follows:

the automatic page-adding bookbinding device comprises a control system, a paper feeder 10 and a bookbinding machine 30 which are arranged in series according to an operation sequence. In this embodiment, the temporary storage device further includes a temporary storage device 20, the temporary storage device 2 is disposed in an inclined manner, the temporary storage device 20 is located between the sheet feeder 10 and the stapler 30, wherein a higher end of the temporary storage device is mounted to the sheet discharging end of the sheet feeder 10, and a lower end of the temporary storage device is mounted to the sheet feeding end of the stapler 30. In this embodiment, the stapler 30 is a machine type commonly used in the industry. The paper feeder 10 includes at least two paper supply layers, wherein at least one paper supply layer has a bar code scanner disposed therein, and at least one paper supply layer has a cutting die device 140 disposed therein. In other embodiments, the paper supply layer with the code scanner is not designed, and the device can be used as a general automatic binding device.

In this embodiment, the number of the paper supply layers is three, the cutting die devices 140 are disposed on the first layer and the second layer from top to bottom, and the code scanners are disposed in the third layer. The sheets in the first and second layers are thicker and are generally used as covers, and therefore need to be indented at the folding position of the sheets by the knife die device 140. Of course, other types of paper sheets requiring impressions can be placed, such as a first layer for the inner sheet and a second layer for the cover sheet. The main function of the code scanner is to scan the bar codes of specific areas on the paper, and the bar codes have information of the page number, the starting page and the ending page of the paper. The code scanner scans and transmits the information to the control system, and the control system controls the paper feeder 10 to output corresponding paper.

If the first layer is provided with the insert page, the second layer is provided with the cover page, the third layer is provided with the inner page, the collating data is 10 inner pages, 1 cover page and 1 insert page, and the position of the insert page is 6 th page. The steps of completing the inserting function in this embodiment are as follows: the third layer continuously feeds 5 inner pages into the temporary storage, the first layer feeds 1 insert page into the temporary storage, the third layer continuously feeds 5 inner pages into the temporary storage, the second layer feeds 1 cover page into the temporary storage, and the temporary storage feeds 12 pages into the binding machine 30 to complete binding.

The head or the tail of the paper is printed with a bar code or a two-dimensional code, and the bar code or the two-dimensional code comprises the following information: the number of collected pages, a start page mark and an end page mark. If 5 copies of A data are set on the third layer of the feeder 10, 10 copies of A data are set, and 3 copies of B data are set, 7 copies of B data are set. The steps of scanning and collecting pages are completed as follows:

1) the first paper is scanned by the code scanner to obtain the bar code information: the number 1 is 5, and 10 sheets are used. The first to enter the register.

2) Feeding 9 sheets of paper continuously, scanning bar code information of the 9 th sheet of paper by a code scanner, counting by a background to finish 1 sheet of gathering if the 10 th sheet of the total gathering is confirmed, and finishing work in sequence by subsequent stations. And if the 10 th bar code information is confirmed to be wrong, stopping the current gathering work.

3) The above steps are repeated until the gathering of A, B data is completed.

Each of the paper supply layers includes a horizontal paper supporting plate 11, a first paper guide assembly 12 arranged above the paper supporting plate 11, and two first clamping plates 150 arranged in an opposite upright manner, the paper supporting plate 11 is arranged between the two first clamping plates 150, and the first paper guide assembly 12 is arranged at an outlet of the paper supply layer. At least one first guide groove 151 is uniformly arranged on each of the two first clamping plates 150, the axis of each first guide groove 151 is in the vertical direction, and a sliding protrusion matched with each first guide groove 151 is arranged on the paper supporting plate 11. In this embodiment, the number of the first guide grooves 151 is two, as shown in fig. 5, the two first guide grooves 151 are arranged side by side, and two sliding protrusions are respectively arranged on the edges of the left side and the right side of the paper supporting plate 11.

In this embodiment, the first paper guiding assembly 12 is a belt driving device, wherein the surface of the belt has a structure for increasing friction, and the surface of the belt is attached to the paper to send out the paper. And as the number of the paper sheets decreases, the paper sheet tray 11 gradually moves upward along each of the first guide grooves 151 to ensure that the belt is attached to the paper sheets.

A paper feeding outlet paper guide assembly 13 is arranged at one end of the paper feeder 10 connected with the temporary storage 20, the end can be regarded as a paper discharging end of the paper feeder 10, and a paper conveying guide plate is arranged at an outlet of each paper feeding layer. In this embodiment, the exit of the third paper supply layer directly passes through the paper feeding guide to the paper feeding exit guide assembly 13, the exit of the first and second paper supply layers is disposed with the cutting die device 140, the cutting die device 140 is located between the first paper guide assembly 12 and the paper feeding guide, and the paper feeding guide assemblies are disposed at the paper feeding end and the paper discharging end of the cutting die device 140. The paper guide plates in the first and second layers lead from the paper guide roller assembly at the paper outlet end of the die assembly 140 to the paper outlet guide assembly 13.

In this embodiment, the paper feeding outlet paper guide assembly 13 is flush with the outlet of the second paper feeding layer, and the paper feeding guide plate at the outlet of the second paper feeding layer is a horizontal panel. The paper conveying guide plate of the first layer and the third layer of the paper supply layer is two panels, and a gap formed between the two panels is a paper conveying channel.

The structure of the cutting die device 140 is the prior art, and comprises at least one cutting die type of an indentation knife assembly, a broken line pressing knife assembly and a punching knife assembly, and the cutting die device 140 can be detached and replaced according to actual working requirements to manufacture fine line indentations, double fine line indentations, common indentations, double common indentations, thick line indentations, double thick line indentations, narrow tooth broken lines, wide tooth broken lines, round holes, square holes and the like. In this embodiment, as shown in fig. 6 and 7, an indentation knife assembly is disposed in the knife die device 140, the indentation knife assembly includes an upper pressing member 141 and a lower pressing member 142 that open and close up and down, a strip-shaped groove is disposed on an upper side surface of the lower pressing member 142, an axis of the strip-shaped groove is perpendicular to a conveying direction of paper, and a strip-shaped protrusion matched with the strip-shaped groove is disposed on a lower side surface of the upper pressing member 141. The paper in the first and second paper supply layers passes between the upper press member 141 and the lower press member 142, and is pressed with a common impression by the knife die device 140.

The temporary storage 20 comprises a main panel and two second clamping plates 21 which are arranged on the upper side of the main panel in parallel, the area between the two second clamping plates 21 is a paper conveying channel, and a channel width adjusting component 240 which can adjust the positions of the two second clamping plates 21 is arranged on the lower side surface of the main panel.

As shown in fig. 9, 11, 12, 15 and 16, the channel width adjusting assembly 240 includes an adjusting plate 242 disposed on the main panel and two moving members 244 disposed on the adjusting plate 242, rack structures are disposed on both the two moving members 244 in a direction perpendicular to a conveying direction of the paper conveying channel, the two rack structures are disposed opposite to each other, an adjusting gear 243 engaged with both the rack structures is disposed between the two moving members 244, and a clamp plate fixing member 241 capable of fixing the moving members 244 is disposed on each of the moving members 244. By rotating the adjusting gear 243, the two moving members 244 can be moved synchronously, so as to move the two second clamping plates 21. For example, to reduce the width of the paper feeding path, the adjusting gear 243 is rotated to move the two moving members 244 toward each other at the same time, so as to reduce the distance between the two second clamping plates 21.

Two second guide grooves 25 into which the clamping plate fixing pieces 241 can extend are arranged on the main panel, and the axes of the two second guide grooves 25 are perpendicular to the conveying direction of the paper conveying channel. In this embodiment, the adjusting plate 242 is fixed to the lower side of the main panel, two moving members 244 are disposed on the lower side of the adjusting plate 242, two fourth guide grooves 245 are disposed on the adjusting plate 242, and the fourth guide grooves 245 correspond to the second guide grooves 25 one to one. Each of the clamp fixing members 241 is an L-shaped sheet metal member, one of the folded edges of the L-shaped sheet metal member is fixed to the corresponding moving member 244 by a bolt, and the other folded edge of the L-shaped sheet metal member is fixed to the corresponding second clamp 21 by a bolt.

A gantry 230 is arranged on the upper side of the main panel, and the gantry 230 is located at one end of the temporary storage 20 close to the stapler 30 and crosses the paper conveying passage. A second paper guide assembly 22 is arranged on the paper conveying channel, the second paper guide assembly 22 is located below a cross beam of the portal frame 230, and a second paper guide roller 231 matched with the second paper guide assembly 22 is installed on the lower side of the cross beam of the portal frame 230.

In this embodiment, the second paper guiding assembly 22 is a belt driving device, wherein a driving belt is attached to a side surface of the second paper guiding roller 231, and paper passes between the driving belt and the second paper guiding roller 231. As can be seen from fig. 14, the second paper guiding roller 231 is substantially located above the driving wheel of the second paper guiding assembly 22, i.e. the side surface of the second paper guiding roller 231 is the side surface that is attached to the driving wheel via the driving belt.

The second paper guide roller 231 is installed below the beam of the gantry 230 through two second columns sleeved with buffer springs. The bottom ends of the two second vertical columns are respectively fixed to two ends of a second rotating shaft 232 on the second paper guide roller 231, so that the position of the second paper guide roller 231 can be properly adjusted up and down in the paper conveying process. In this embodiment, in order to further enhance the buffering function between the second paper guiding roller 231 and the second paper guiding assembly 22, the third columns 233 at two sides of the gantry 230 are also sleeved with buffering springs capable of jacking the beam.

Example two:

the difference between the present embodiment and the first embodiment is that the automatic page-adding and binding apparatus includes a control system, and a paper feeder 10 and a stapler 30 arranged in series according to the operation sequence, and the temporary storage 20 is arranged in the stapler 30, i.e. the stapler 30 has a temporary storage function.

While the embodiments of the present invention have been described in detail with reference to the drawings, the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims (10)

1. Automatic increase page binding equipment, including control system, its characterized in that: the paper feeder comprises a paper feeder (10) and a stapler (30) which are arranged in series according to an operation sequence, wherein the paper feeder (10) comprises at least two paper supply layers, and a cutting die device (140) is arranged on at least one paper supply layer; still include temporary storage (20), temporary storage (20) include the interarea board and parallel arrangement are in two second splint (21) of interarea board top surface, two the region between second splint (21) is the defeated paper passageway, the downside of interarea board is arranged and is adjusted two passageway width adjustment assembly (240) of second splint (21) position.

2. The automatic page-adding bookbinding apparatus according to claim 1, wherein: wherein at least one of the paper supply layers is provided with a code scanner.

3. The automatic page-adding bookbinding apparatus according to claim 1 or 2, characterized in that: the temporary storage (20) is located between the feeder (10) and the stapler (30).

4. The automatic page-adding and binding apparatus according to claim 3, wherein: the channel width adjusting assembly (240) comprises an adjusting plate (242) arranged on the main panel and two moving members (244) arranged on the adjusting plate (242), rack structures are arranged on the two moving members (244) along the conveying direction perpendicular to the paper conveying channel, the two rack structures are arranged oppositely, an adjusting gear (243) is arranged between the two moving members (244), the adjusting gear (243) is meshed with the two rack structures, and a clamping plate fixing member (241) capable of fixing the moving members (244) is arranged on each moving member (244).

5. The automatic page-adding and binding apparatus according to claim 4, wherein: two second guide grooves (25) into which the clamping plate fixing pieces (241) can extend are arranged on the main panel, and the axes of the two second guide grooves (25) are perpendicular to the conveying direction of the paper conveying channel.

6. The automatic page-adding and binding apparatus according to claim 3, wherein: the upper side of the main panel is provided with a portal frame (230), the portal frame (230) is positioned at one end, close to the stapler (30), of the temporary storage device (20), a second paper guide assembly (22) is arranged on the paper conveying channel, the second paper guide assembly (22) is positioned below a cross beam of the portal frame (230), and a second paper guide roller (231) matched with the second paper guide assembly (22) is installed on the lower side of the cross beam of the portal frame (230).

7. The automatic page-adding and binding apparatus according to claim 6, wherein: the second paper guide roller (231) is arranged below the beam of the portal frame (230) through two second upright posts sleeved with buffer springs.

8. The automatic page-adding bookbinding apparatus according to claim 1 or 2, characterized in that: each paper supply layer comprises a horizontal paper supporting plate (11), a first paper guide assembly (12) arranged above the paper supporting plate (11) and two first clamping plates (150) arranged vertically oppositely, the paper supporting plate (11) is arranged between the two first clamping plates (150), the first paper guide assembly (12) is arranged at an outlet of the paper supply layer, at least one first guide groove (151) is uniformly arranged on the two first clamping plates (150), the axis of each first guide groove (151) is in the vertical direction, and a sliding protrusion matched with each first guide groove (151) is arranged on the paper supporting plate (11).

9. The automatic page-adding and binding apparatus according to claim 8, wherein: the cutting die device (140) is arranged at an outlet of the paper feeding layer, and the cutting die device (140) comprises at least one cutting die type of an indentation cutting assembly, a broken line cutting assembly and a punching cutting assembly.

10. The automatic page-adding bookbinding apparatus according to claim 1 or 2, characterized in that: the temporary storage (20) is arranged in the stapler (30).

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