CN107471850B - Bookbinding device - Google Patents

Abstract

The invention relates to a binding device for binding a plurality of cover sheets and a plurality of inner sheets into a book, comprising: the device comprises a paper feeding unit, an aligning unit, a gluing unit, an assembling unit, a folding unit, a conveying unit and an image error correction unit. The paper feeding unit comprises a cover paper feeding unit and an inner paper feeding unit, the conveying unit conveys the cover paper or the inner paper in the paper feeding unit to the aligning unit, the clamping part of the aligning unit aligns the conveyed cover paper or the inner paper, the conveying unit conveys the aligned paper to the assembling unit, the gluing unit coats the glue part on the regulated part of the cover paper or the inner paper in the process that the conveying unit conveys the cover paper or the inner paper to the assembling unit, and the folding unit folds the glued cover paper and the glued inner paper into a book. The binding device can be used for free binding of two sizes of the cover page and the inner page at one time, and solves the problem that manual operation is required in the traditional technology.

Description

Bookbinding device

Technical Field

The present invention relates to the field of stapling, and in particular to a stapling device comprising a paper feed unit, a gluing unit and a folding unit.

Background

Document binding apparatuses are known in the art and generally include a paper feeding unit, a gluing unit, and a folding unit. However, when the cover sheets and the inner sheets are different in paper size, it is necessary to provide the predetermined inner sheets in the predetermined cover sheets in an ordered number of inner sheets and in an ordered number of cover sheets, the prior art device cannot automatically provide any number of cover sheets and inner sheets of different sizes, positions of gluing, and quality of alignment and control.

In addition, the conventional binding device is only capable of simultaneously providing paper feeding units with one size, and free binding of mixed paper with two sizes cannot be realized.

Disclosure of Invention

A binding apparatus for binding a plurality of cover sheets and a plurality of inner sheets into a book, comprising: the paper feeding unit comprises a cover paper feeding unit and an inner paper feeding unit; the conveying unit is used for conveying the cover sheets fed by the cover sheet feeding unit and the inner sheets fed by the inner sheet feeding unit; the gluing unit is used for coating the glue part on the regulated parts of the cover page and the inner page; the assembly unit is used for sequentially stacking the cover page coated with the adhesive and the inner page; and the folding unit is used for folding the cover page and the inner page coated with the adhesive into a book.

The binding device further comprises an alignment unit, the alignment unit comprises a pair Ji Kawei part, the conveying unit conveys the cover sheets in the cover sheet feeding unit and the inner sheets in the inner sheet feeding unit to the alignment unit, the clamping part of the alignment unit aligns the conveyed cover sheets and the inner sheets, and the conveying unit conveys the aligned cover sheets and the inner sheets to the assembling unit.

The invention relates to a binding device, wherein the conveying unit comprises a first suction part which is used for sucking and conveying a cover sheet in the cover sheet feeding unit and an inner sheet in the inner sheet feeding unit.

The first suction part comprises a cover sheet suction part and an inner sheet suction part, wherein the cover sheet suction part is used for sucking and conveying the cover sheets, and the inner sheet suction part is used for sucking and conveying the inner sheets.

The conveying unit comprises a second suction part which moves between the paper feeding unit and the alignment unit, conveys the cover sheets or the inner sheets to the alignment unit, and enables the cover sheets and the inner sheets to be placed close to the clamping part of the alignment unit through the suction force provided by the suction part.

Preferably, the alignment unit comprises a base, a recess and a slat for creating a recess in the middle of the base, the slat being located above the middle of the cover sheet in the alignment unit, aligned with the recess, the recess being formed in the cover sheet when the slat is lowered into the recess.

Preferably, a third suction portion is provided to hold the cover sheet on the base from the lower side.

The base may also be omitted and a recess provided in the base of the third suction portion to allow the slat to act on the sheet.

The conveying unit comprises a fourth suction part for conveying the cover sheets and the inner sheets to the assembling unit.

The invention relates to a binding device, wherein the conveying unit comprises a fifth suction part for conveying the assembled cover sheets and inner sheets to the folding unit.

The binding device comprises a suction plate and a plurality of suction holes, wherein the suction holes are formed in the surface of the suction part and face to the cover page or the inner page, and the suction holes are connected with a vacuum device connected to the suction part so that the cover page or the inner page is adsorbed on the suction holes.

The binding device comprises a cover sheet feeding unit and an inner sheet feeding unit, wherein the cover sheet feeding unit and the inner sheet feeding unit respectively comprise a paper feeding part, and the paper feeding part gradually contracts to a preset width from a larger opening so as to lead the cover sheet and the inner sheet into the paper feeding part.

According to the binding device, the liquid glue coated by the gluing unit is a glue line or glue points arranged in a preset direction or a mixture of the glue line and the glue points. .

The invention relates to a binding device, which comprises a bracket, a folding part and an additional pressure unit, wherein the bracket drives the folding part to fold and close a cover page, and the additional pressure unit flattens the closed cover page.

Preferably, the additional pressure unit is a cylinder.

The binding device of the invention also comprises an image error correction unit which is arranged on the moving path of the cover sheet and the inner sheet between the paper feeding unit and the alignment unit, and if the type of the cover sheet and the inner sheet is detected to be incorrect, the assembly is stopped.

Preferably, the image error correction unit is a camera.

The binding device according to the present invention further comprises a printing unit for printing information on the cover sheet and the inner sheet.

The binding device of the invention further comprises a cutting unit for cutting three free edges of the bonded book.

The binding device can be used for free binding of two sizes of the cover page and the inner page at one time, and solves the problem that manual operation is required in the traditional technology. The invention also realizes the simultaneous image recognition and error correction of the cover sheets and the inner sheets, and realizes the free binding of any number of the cover sheets and any number of the inner sheets.

The binding device disclosed by the invention is used for aligning in the paper conveying process, and automatically aligning paper with different sizes by one corner. In the binding process, the free switching of the shape of the glue spraying is realized, the glue spraying can be performed in a linear shape or in a dot shape, or in a mixture of a linear shape and a dot shape, and the width of the glue line or the size of the glue dot can be freely changed.

Drawings

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, which are for the purpose of illustrating the preferred embodiments of the present invention and not for the purpose of limiting the same. In the drawings of which there are shown,

FIG. 1 is a schematic view showing the overall structure of a binding apparatus according to an embodiment of the present invention;

FIG. 2 illustrates a workflow position diagram of a binding assembly in accordance with an embodiment of the invention;

FIG. 3 shows a schematic side view of a binding apparatus of an embodiment of the present invention;

FIG. 4 shows a schematic view of a paper feed section according to an embodiment of the present invention;

FIG. 5 shows a schematic view of the slats and recesses of an alignment unit according to an embodiment of the invention;

fig. 6 shows a schematic perspective view of an attraction portion of an embodiment of the invention;

FIG. 7 illustrates a folder workflow position schematic of a tucker unit of an embodiment of the present invention;

FIG. 8 shows a schematic side view of three different types of documents assembled in accordance with an embodiment of the present invention.

Detailed Description

The present invention is specifically described by way of example, but is not limited to the specific embodiments.

Fig. 1 shows a schematic general structure of a binding apparatus 100 for binding a book 200 according to an embodiment of the present invention.

FIG. 2 illustrates a workflow position diagram of a binding assembly in accordance with an embodiment of the invention;

fig. 3 shows a schematic side view of a binding apparatus according to an embodiment of the present invention.

As shown in fig. 1 and 2, the binding apparatus 100 for binding a book 200 according to the present invention includes an inner sheet feeding unit 110, a cover sheet feeding unit 120, an aligning unit 130, an assembling unit 140, a gluing unit 145, a folding unit 150, and an output unit 160, and the bound book 200 is output in the direction of an arrow 165 on the output unit 160.

The bookbinding apparatus 100 is provided with a table 101, and each working unit is provided on the table 101. The inner sheet feeding unit 110 includes a sheet feeding portion 111, and the cover sheet feeding unit 120 includes a sheet feeding portion 121. The paper feeding parts 111 and 121 respectively include two opposite side guide parts 112 and a paper feeding clamping part 113, and the cross sections of the two opposite side guide parts 112 are two opposite right trapezoid shapes, so that the paper feeding parts gradually shrink from one large opening to a certain width and are parallel to each other, and the inner sheets 25 are respectively led into the position 94, and the cover sheets 20 are led into the position 104, as shown in fig. 4.

Cover sheet 20 and inner sheet 25 may be standard gauge paper of international gauge, but inner sheet 25 is required to be in the same format as cover sheet 20 and is a smaller version of 50% of the surface of cover sheet 20, e.g., cover sheet is in the A3 format and inner sheet 25 is in the A4 format. Cover sheet 20 may also be in a B3 or C3 format, etc., and is capable of providing a protective edge around inner sheet 25. That is, after folding the cover sheet 20, two parts larger than the inner sheet 25 can be formed so that the cover sheet 20 can be folded around the inner sheet 25 to create a book 200, as shown in fig. 8.

The user 10 loads and aligns a certain number of the inner sheets 25 and the cover sheets 20 into the sheet feeding portion 111 and the sheet feeding portion 121, respectively. There may be a predetermined number of cover sheets 20 and pre-ordered inner sheets 25, or there may be a specific cover sheet 20 for each pre-ordered inner sheet 25. The paper feed portion formed by the side guide portion 112 and the paper feed nip portion 113 holds the loaded cover sheet 20 and the inner sheet 25 in the respective positions 104 and 94.

A first suction portion, designated 60, as shown in fig. 3 is mounted from above, contacts the upper surface of the cover sheet 20, and transfers the cover sheet 20 from position 104 to position 124 in fig. 2, with the suction portion being designated 60 ". A plurality of cover sheets 20, which are stacked together, are provided in the sheet feeding portion 121, and denoted by reference numeral 24. The inner sheet 25 may be moved from the position 94 to the position 114 thereof directly above the sheet feeding portion 111 by the first suction portion. The end position of the first suction portion at this time is shown by reference numeral 60'. The first suction portion may be provided with a cover sheet suction portion for sucking and conveying the cover sheet 20 and an inner sheet suction portion for sucking and conveying the inner sheet 25, respectively.

The second suction portion 80 is provided below the position 124 of the cover sheet 20, and is provided with a plurality of suction holes 142 in a direction toward the upper surface 143, and the suction holes 142 of the suction portion 80 may be a row of holes 142 as shown in fig. 6, or the suction portion 80 may be a suction plate having one surface larger than the cover sheet 25 or the inner sheet 20 to be conveyed, and the suction holes 142 are distributed at the edge thereof. A vacuum is applied to the second suction portion 80, causing the cover sheet 20 to adhere to the second suction portion 80 and to be conveyed to the alignment unit 130 in the direction of arrow 129.

The alignment unit 130 includes two latching portions 131 and 132, and the two latching portions 131 and 132 have an angle of 90 ° for positioning the cover sheet 20 and the inner sheet 25.

In position 134, the second suction portion 80 is positioned below and is pushed against the two pairs Ji Kawei of portions 131 and 132 that are above the upper surface of the second suction portion 80. The application of vacuum in the suction portion 80 is stopped and then a holder such as a bernoulli holder (not shown in the drawing) provided by FESTO is placed under the cover sheet 20, and an adsorption effect is provided on the cover sheet 20 located above due to the high-speed air flow parallel to the lower side of the bernoulli holder. Such bernoulli holders may also be used for the first suction portion 60.

This allows processing without contacting the transport object, and is applicable to flexible materials such as paper. This touchless vacuum suction element sucks the cover sheet 20 and positions it on the two pairs Ji Kawei of parts 131 and 132.

Fig. 5 shows a schematic view of the slats and recesses of the alignment unit 130. The cover sheet 20 does not rest completely flat against the pair Ji Kawei of parts 131 and 132, but rather rests on a base 135 having a trapezoidal cross section with a pointed end 136 and a central recess 138, the central recess 138 being formed by two opposite shoulders 133. A slat 137 with a circular bottom 139 can be pushed into the central recess 138 to form a recess 21 in the intermediate position of the cover sheet 20. Fig. 5 is a cross-sectional view of fig. 2 in the direction of arrow 129.

Preferably, a third suction portion 80 is provided to hold the cover sheet 20 on the base 135 from the lower side. The base 135 can also be omitted and a recess 21 can be provided in the base of the third suction portion 80 to allow the slat 137 to act on the cover sheet 20. Fig. 2 illustrates the direction of action of the slat 137 along arrow 129.

The fourth suction portion 60 is positioned from above and has suction holes directed toward the cover sheet 20. The suction portion sucks the cover sheet 20 through the vacuum degree provided by the suction hole and brings it to the assembly unit 140.

The assembly unit 140 is adjacent to the gluing unit 145 disposed between the alignment unit 130 and the assembly unit 140. When the fourth suction portion 60 conveys the cover sheet 20, the gluing unit 145 causes the liquid glue to be applied from above on the cover sheet 20 on a thin line in the same direction as the groove 21. The gluing unit 145 is arranged from above at a certain distance from the recess 21 in the cover sheet 20 to provide a full length of glue line or intermittent glue sites.

Note that, when binding the book, the gluing unit 145 is filled with glue or the distance from the groove 21 is excessively large.

Then, the vacuum is not applied in the fourth suction portion 60 any more, but is applied in the fifth suction portion 80 provided at the lower side of the assembly unit. Fig. 6 shows a perspective view of the fifth suction portion 80, including a plurality of suction holes 142 terminating in an upper surface 143. The suction hole 142 is connected to a vacuum device connected to the outlet 141, and the fifth suction portion 80 is preferably positioned such that the suction hole 142 is close to the glue line, but not directly on the glue line. At this time, the cover sheet 20 is positioned at a predetermined position of the assembly unit 140.

Thereafter, a predetermined number of the inner sheets 25 are conveyed to the assembling unit 140.

First, first inner sheet 25 is positioned to position 114 by first suction portion 60. The first inner page 25 is then moved to the lower half of the location 124 where an image error correction unit 125, such as a camera, is positioned over the lower half of the location 124. To provide a clear view when the cover sheet 20 and each of the inner sheets 25 are transported to this position. In order to properly process these pages, the image correction unit 125 is first used to detect whether stapling starts from the cover sheet as the first, and then follows a predetermined number of the inner sheets 25. In addition, the image error correction unit 125 can also detect the correct number of inner pages 25 and the correct ordering thereof. The correct ordering can be distinguished by the corresponding visual elements on the page, which can be simple page numbers or visual elements displayed on the cover page and the inner page of different content. If the image error correction unit 125 detects a sort error, the control unit issues a signal and stops the binding of the booklet 200.

The inner sheet 25 is then positioned to the alignment unit 130 with the first suction portion 60 like the cover sheet 20, where the inner sheet 25 is positioned at the pair Ji Kawei portions 131 and 132 in the same manner as the cover sheet 20. If a smaller inner page 25 is to be inserted into the cover page 20, the pair Ji Kawei portions 131 and 132 will be moved to the respective positions of each inner page.

When the inner sheet 25 is aligned, it is displaced to the assembly unit 140 as in the cover sheet 20 described previously, at which point the gluing unit 145 applies another glue line or drop along the sheet side of the inner sheet 25. Inner sheet 25 is then positioned onto cover sheet 20 with the bottom surface of first inner sheet 25 contacting glue line 146 on cover sheet 20. The positioned second inner sheet passes through the cover sheet feeding unit 120 and the aligning unit 130 in the same manner and passes under the gluing unit 145, is glued, and is positioned to the assembling unit 140 with its bottom surface contacting the glue line 146 of the first inner sheet positioned on the cover sheet 20. After all the inner sheets 25 have been positioned to the assembling unit 140 by completing the above-described process, the fifth suction cups 80 provided under the cover sheets 20 bring the cover sheets 20 and the inner sheets 25, which are glued and stacked, from the assembling unit 140 to the folding unit 150.

Fig. 7 shows a schematic view of the workflow position of the folding portion 153 of the folding unit 150. In the initial state, the portion of the cover sheet 20 where the inner sheets 25 are stacked is the bottom portion 22, the free end is the cover portion 23, and the recess 21 separates the bottom portion 22 of the cover sheet 20 from the cover portion 23. The folding unit 150 includes a holder 152 provided with a folding portion 153, and an initial position of the folding portion 153 is located below the cover portion 23. When the folding operation is started, the folding portion 153 moves along the first path 154 to push the cover portion 23 of the cover 20 from the initial position to the position 23', the folding portion 153 is positioned at the position 153', and the folding portion 153 moves along the second path 154 'as the bracket 152 moves, and the folding portion 153 moves from the position 153' to the closed position 153″ to bring the cover portion 23 to the closed position 23″.

An additional pressure unit 155 can also be provided, the fold 153 being pressed against the folded cover sheet by an additional force applied from above by the additional pressure unit 155. The additional pressure unit may be a spring or a cylinder.

The booklet 200 is fed to the output unit 160 outside the apparatus after being bound. At this time, the book 200 may be directly transferred to an additional cutting unit to cut edges adjacent to or opposite to the grooves to improve the bound book 200.

A printing unit may also be provided for printing information such as a serial number for each book. This may be achieved after the assembly unit 140 or, preferably, after the alignment unit 130.

Fig. 8 shows three different types of schematic side views of a book 200 bound with the device 100 according to fig. 1, the book 200 in the right-hand view of fig. 8 comprising a cover sheet 20 with a plurality of inner sheets 25. Cover sheet 20 and lower inner sheet 25 have glue lines 146. The uppermost inner page 25 is devoid of glue line 146. When cover 23 is depressed by fold 153, according to fig. 7, the completed book 200 includes stacked and adhered inner pages 25 and a cover 20 that is fully openable. The difference in the book 200 in the middle view of fig. 8 is that also the uppermost inner page 25 has glue lines 146 thereon to glue the closed cover portion 23 and the uppermost inner page 25 together. The book 200 in the left-hand view of fig. 8 includes only providing one of the most predominant glue lines 146 in or very close to the recess 21, and then the inner edge of the subsequent inner page 25 is positioned in or near the glue line 146, and binding of the book 200 is completed under the constraint of the glue line 146 in the recess 21 when the cover 23 is pushed onto the inner page to close via the fold 153 to the position 153 ".

Claims (14)

1. A binding apparatus for binding a plurality of cover sheets and a plurality of inner sheets into a book, comprising:

a working table surface on which each working unit is arranged;

the paper feeding unit comprises a cover paper feeding unit and an inner paper feeding unit;

a conveying unit configured to convey a cover sheet fed by the cover sheet feeding unit and an inner sheet fed by the inner sheet feeding unit, the conveying unit including a plurality of suction portions capable of sucking the cover sheet and the inner sheet and conveying the cover sheet and the inner sheet to predetermined positions;

an aligning unit that aligns the conveyed cover sheet or the inner sheet;

the gluing unit is used for coating liquid glue on the regulated positions of the cover page and the inner page;

the assembly unit is used for sequentially stacking the cover page coated with the adhesive and the inner page;

the folding unit folds the cover page and the inner page coated with the glue into a book;

wherein the plurality of suction parts of the conveying unit comprise

A first suction unit which is attached from above the cover sheet and the inner sheet and is capable of sucking the cover sheet or conveying the inner sheet from the paper feed unit to a predetermined position on the table surface;

a second suction unit that is attached from below the cover sheet and the inner sheet and conveys the cover sheet or the inner sheet sucked by the first suction unit to an alignment unit;

a fourth suction unit which is installed from above the cover sheet and the inner sheet, moves between the alignment unit and the assembly unit, and conveys the cover sheet or the inner sheet to the assembly unit;

and a fifth suction unit which is installed from below the cover sheet and the inner sheet, moves between the assembling unit and the folding unit, and conveys the assembled cover sheet and inner sheet to the folding unit.

2. The binding apparatus according to claim 1, wherein the aligning unit includes a pair Ji Kawei portion, the conveying unit conveys the cover sheet in the cover sheet feeding unit and the inner sheet in the inner sheet feeding unit to the aligning unit, the positioning portion of the aligning unit aligns the conveyed cover sheet or inner sheet, and the conveying unit conveys the aligned cover sheet and inner sheet to the assembling unit.

3. The binding apparatus according to claim 1, wherein the first suction portion includes a cover suction portion for sucking and conveying the cover sheet and an inner sheet suction portion for sucking and conveying the inner sheet.

4. The binding apparatus of claim 2, wherein the second suction portion provides suction to place the cover sheet and the inner sheet against the pair Ji Kawei of alignment units.

5. The binding apparatus of claim 1, wherein the transport unit includes a third suction portion, the alignment unit includes a recess and a slat for creating a recess, the slat is located above a middle portion of the cover sheet in the alignment unit and aligned with the recess, and the third suction portion holds the cover sheet on the recess of the alignment unit, and the recess is formed on the cover sheet when the slat is lowered into the recess.

6. The binding apparatus of any one of claims 1 to 5, wherein any one of the suction portions is a suction plate including a plurality of suction holes ending in a surface of the suction portion and facing the cover sheet or the inner sheet, the suction holes being connected to a vacuum device connected to the suction portion so that the cover sheet or the inner sheet is sucked onto the suction holes.

7. The binding apparatus according to claim 2, wherein the cover sheet feeding unit and the inner sheet feeding unit each include a sheet feeding portion which gradually contracts from a larger opening to a predetermined width so that the cover sheet and the inner sheet are guided into the sheet feeding portion.

8. The binding apparatus of claim 2, wherein the liquid glue applied by the gluing unit is a glue line or glue dots arranged in a predetermined direction, or a mixture of glue lines and glue dots.

9. The binding apparatus of claim 2, wherein the folding unit includes a frame, a folding portion, and an additional pressure unit, the frame driving the folding portion to fold and close the cover, the additional pressure unit flattening the closed cover.

10. The binding apparatus of claim 9, wherein the additional pressure unit is a cylinder.

11. The binding apparatus according to claim 1, further comprising an image correction unit disposed above a moving path of the cover sheet and the inner sheet between the paper feeding unit and the alignment unit, and wherein the assembly is stopped if the incorrect types of the cover sheet and the inner sheet are detected.

12. The binding apparatus of claim 11, wherein the image error correction unit is a camera.

13. The binding apparatus of claim 1, further comprising a printing unit for printing information on the cover sheet and the inner sheet.

14. The binding apparatus of claim 1, further comprising a cutting unit for cutting three free edges of the bonded book.