阅读说明：本技术 一种加脊装订结构、印刷品结构及印刷品加脊装订方法 (Spine-adding binding structure, printed matter structure and spine-adding binding method for printed matter ) 是由 侯强 于 2021-08-09 设计创作，主要内容包括：本发明涉及一种加脊装订结构,设于印刷品的外侧,其包括壳体和书脊支撑块,所述书脊支撑块设有管理标识,所述壳体包括对折连接的封面和封底,所述封面和所述封底的连接处设有所述书脊支撑块,所述封面和所述封底分别设置于印刷品的顶、底两面,且所述书脊支撑块紧贴该印刷品的书脊外侧面,本发明还涉及印刷品结构及其装订方法。本发明书脊支撑块为印刷品提供了充足的开发空间,实现快速对印刷品进行二次开发改造,本发明利用带有管理标识的书脊支撑块,使得印刷品具有明显的辨识,有效提高对现有印刷品的收纳管理效果,另一方面,本发明的印刷品加脊装订方法使得印刷品具备充裕的书脊空间,更利于对印刷品进行管理或改造。(The invention relates to a spine-adding binding structure which is arranged on the outer side of a printed matter and comprises a shell and a spine supporting block, wherein the spine supporting block is provided with a management mark, the shell comprises a front cover and a back cover which are connected in a folded mode, the spine supporting block is arranged at the joint of the front cover and the back cover, the front cover and the back cover are respectively arranged on the top surface and the bottom surface of the printed matter, and the spine supporting block is tightly attached to the outer side surface of the spine of the printed matter. The spine supporting block with the management identification is utilized, so that the printed matters are obviously identified, the storage management effect of the existing printed matters is effectively improved, and on the other hand, the printed matters have abundant spine space, so that the printed matters are more favorably managed or modified.)

1. The spine adding and binding structure is characterized by being arranged on the outer side of a printed matter and comprising a shell and a spine supporting block, wherein the spine supporting block is provided with a management mark, the shell comprises a front cover and a back cover which are connected in a folded manner, the spine supporting block is arranged at the joint of the front cover and the back cover,

the front cover and the back cover are respectively arranged on the top surface and the bottom surface of a printed matter, and the spine supporting block is tightly attached to the outer side surface of the spine of the printed matter.

2. The spine binding structure according to claim 1 wherein the front cover and the back cover each comprise an articulated hinge region and a fixed adhesive region, the fixed adhesive region of the front cover and the fixed adhesive region of the back cover are connected and form a cavity for receiving the spine support block, and the hinge regions are connected to both sides of the top and bottom of the printed matter.

3. The spine bound structure of claim 2 wherein the width of the anchor adhesive area is equal to the width of the spine support block.

4. The spine-added binding structure according to claim 2, wherein a loose-leaf line facilitating the folding of the loose-leaf region is provided between the movable plate and the fixed adhesive region.

5. The spine bound structure according to any of claims 1-4 wherein the spine support blocks management indicia are a plurality of through holes for binding attachment.

6. The spine bound structure of any of claims 1-4 wherein the administrative identifier of the spine support block is an electronic induction tag for identification.

7. The spine binding structure according to any one of claims 1-4, wherein the management label of the spine support block is an electronic sound component, the electronic sound component comprises a magnetic induction element, a main chip and a sound generator, and the main chip stores coded data.

8. The spine bound structure of claim 1 wherein the spine support block is a fiberboard or a gray board or a cardboard.

9. A printed matter structure comprising a book block provided on its outside with a spine-bound structure according to any one of claims 1 to 8.

10. A printed matter spine-adding binding method is characterized by comprising the following steps:

processing to form a book block;

affixing the spine bound structure of any of claims 1-8 to the outside of the book block.

Technical Field

The invention relates to the field of storage management, in particular to a spine adding and binding structure, a printed matter structure and a spine adding and binding method for printed matters.

Background

In daily work or study and life, various printed matters including printed matters, notebooks, file data pages and the like are visible everywhere, and the printed matters are often required to be stored due to the large number of the printed matters around, but generally, people store and arrange the printed matters according to the book.

For example at home, when needs are accomodate books that have been bound into a book, can only put into file or case locally, perhaps put into the book case, in order to conveniently fetch next time, still can classify when putting, and also have the order requirement between a plurality of books of same classification, nevertheless because only arrange together simply between the single books, the degree of accomodating of this mode is limited, when need put back after reading, still need notice the range order.

For example, in a library or other large-quantity book collection places, the books are required to be checked and registered regularly, and the book collection condition is known at any moment, so that better service is provided. For the sake of convenience of inventorying, labels or identification barcodes are generally affixed to the back and/or outside of the spine of a bound book for scan registration. In order to prevent the label from falling or the handwriting from being fuzzy, thick transparent adhesive tapes can be pasted above the label to play a role in fixing and protecting, but the mode greatly influences the attractiveness of books, and the labels need to be replaced after a long time, so that the definition of the identification code is maintained, and the maintenance cost is still high.

Therefore, there is a strong need for a second development of the conventional bound printed matter, which can improve the storage degree and the management convenience, and can be considered from the modification of the spine so as not to increase the thickness of the book.

However, most printed products are bound by two top and bottom covers and a plurality of middle sheets, and the binding method includes stapling, thread binding, and glue binding. When a printed matter is bound into a book, no matter what binding mode is adopted, only a small space is left between the side edge of the spine and the contents of characters and the like of pages, particularly for thick printed matters such as dictionaries, the contents of the characters are almost close to the spine, and therefore, the problem of reforming the spine is solved.

The above problems are worth solving.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a spine-adding binding structure, a printed matter structure and a spine-adding binding method of the printed matter.

The technical scheme of the invention is as follows:

the utility model provides a with spine binding structure, its characterized in that locates the outside of printed matter, and it includes casing and spine supporting shoe, the spine supporting shoe is equipped with the management sign, the casing includes front cover and the back cover that the fifty percent discount is connected, the front cover with the junction of back cover is equipped with the spine supporting shoe, the front cover with the back cover sets up respectively in the top of printed matter, two sides at the bottom, just the spine lateral surface of this printed matter is hugged closely to the spine supporting shoe.

Further, the shell and the printed matter are connected through glue or staples.

The invention according to the scheme is characterized in that the front cover and the back cover both comprise a loose-leaf area and a fixed bonding area which are movably connected, the fixed bonding area of the front cover and the fixed bonding area of the back cover are connected to form a cavity for accommodating the spine supporting block, and the two loose-leaf areas are connected to two sides of the top and the bottom of a printed matter.

Further, the width of the loose-leaf area is equal to the width of the printed matter.

Further, the width of the fixing adhesive region is equal to the width of the spine support block.

Furthermore, a loose-leaf line convenient for the loose-leaf area to fold is arranged between the movable plate and the fixed bonding area.

The invention according to the above aspect is characterized in that the management marks of the spine support block are through holes for binding connection.

The invention according to the above aspect is characterized in that the management mark of the spine support block is an electronic induction tag for identification.

The invention according to the scheme is characterized in that the management mark of the spine support block is an electronic sounding component, the electronic sounding component comprises a magnetic induction piece, a main chip and a sounder, and the main chip stores coded data.

The invention according to the above aspect is characterized in that the thickness of the spine support block is equal to the thickness of the printed matter.

Preferably, the spine support block is a fiber board, an ash board or a paperboard.

On the other hand, the invention also provides a printed matter structure which is characterized by comprising a book block, wherein the spine-adding binding structure in the scheme is arranged on the outer side of the book block.

On the other hand, the invention also provides a printed matter spine-adding binding method, which is characterized by comprising the following steps:

processing to form a book block;

the spine-adding binding structure of the scheme is fixed on the outer side of the book block.

The invention according to the scheme has the advantages that:

the spine-added binding structure is quickly connected with the bound printed matters through the shell, and the spine supporting block provides sufficient development space for the printed matters, so that the printed matters are quickly developed and reformed for the second time; the spine supporting block with the management identification enables the printed matter to have an obvious manageable identification structure, and effectively improves the management effect on the existing printed matter; the abundant space of the spine supporting block also provides possibility for data storage and electronic structure expansion when the presswork is electronically transformed;

furthermore, through the through holes arranged on the spine supporting block, secondary binding of a plurality of existing printed matters is facilitated, the storage management effect is improved, and the situation that the content of the printed matters is damaged due to insufficient spine space is avoided;

furthermore, the electronic identification of the existing printed matter is increased through the electronic induction tag arranged on the spine supporting block, the existing printed matter is electronically modified, the traditional writing tag is replaced, and the daily maintenance cost is reduced;

on the other hand, the invention provides a printed matter structure and a spine binding method thereof, which are different from the existing binding method of printed matters such as glue binding or thread binding, and the binding method of the invention enables the printed matters to have abundant spine space and is more beneficial to managing or modifying the printed matters.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an exploded view of the present invention;

FIG. 3 is a schematic view of the connection structure of the present invention and a printed matter;

FIG. 4 is a schematic structural diagram of a first preferred embodiment of the present invention;

fig. 5 is a schematic structural diagram of a second preferred embodiment of the present invention.

In the figure, 1, a housing; 11. a cover; 12. sealing the bottom; 101. a hinge region; 102. a fixed adhesive region; 103. a loose leaf line;

2. a spine support block; 21. a through hole; 22. an electronic induction tag;

3. and (7) printing.

Detailed Description

For better understanding of the objects, technical solutions and effects of the present invention, the present invention will be further explained with reference to the accompanying drawings and examples. Meanwhile, the following described examples are only for explaining the present invention, and are not intended to limit the present invention.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

The terms "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positions based on the orientations or positions shown in the drawings, and are for convenience of description only and not to be construed as limiting the technical solution.

The meaning of "a number" is two or more unless specifically defined otherwise.

As shown in fig. 1 to 3, a spine binding structure is provided on the outer side of printed matter, and includes a housing 1 and a spine support block 2, and the spine support block 2 is provided with a management mark, which is a mark, a sign or a device for classifying, managing, marking, etc. the printed matter.

The casing 1 includes front cover 11 and back cover 12 of fifty percent discount connection, and the junction of front cover 11 and back cover 12 is equipped with spine supporting shoe 2, and front cover 11 and back cover 12 are fixed in the top of printed matter 3, two sides at the bottom respectively, and the spine lateral surface of this printed matter 3 is hugged closely to spine supporting shoe 2.

According to the invention, the shell is quickly connected with the bound printed matter, and the spine supporting block provides sufficient development space for the printed matter, so that secondary development and transformation of the printed matter are quickly carried out; on the other hand, the spine support block with the management identification is utilized, so that the printed matter has an obvious manageable identification structure, and the management effect on the existing printed matter is effectively improved.

In this embodiment, add spine binding structure and can fix in the printed matter outside, and is concrete, and casing 1 passes through glue with printed matter 3 and is connected, or connects through the staple, and the simple and easy connected mode is convenient for managers and carries out manual transformation to current printed matter. In other embodiments, the spine-added binding structure can be directly sleeved on the outer side of the printed matter and can be detached from the printed matter, and a user can replace the internal printed matter according to different requirements and update the content of the management identification.

Preferably, the surface of the front cover 11 and/or the back cover 12 is further provided with a writing area, so that a user can write and mark according to different requirements.

The front cover 11 and the back cover 12 of the shell both comprise a loose-leaf area 101 and a fixed bonding area 102 which are movably connected, the fixed bonding area 102 of the front cover 11 and the fixed bonding area 102 of the back cover 12 are connected to form a cavity for accommodating the spine support block 2, the two loose-leaf areas 101 are respectively and fixedly connected with the head page and the tail page of the printed matter 3, specifically, the front cover 11 is fixed on the head page of the printed matter 3, the back cover 12 is fixed on the tail page of the printed matter 3, and the front cover of the printed matter is turned over while the loose-leaf areas are turned over; and the anchor adhesive region effectively fixedly connects the spine support block to the printed matter so that it becomes part of the printed matter. The spine support block of the invention increases sufficient reconstruction space for the existing printed matter.

In this embodiment, the width of the hinge area 101 is equal to the width of the printed matter 3, and the width of the fixed adhesive area 102 is equal to the width of the spine support block 2. Therefore, the appearance edge of the presswork after the spine binding structure is connected is neat, and the tidiness and the attractiveness of the reformed presswork are ensured.

In this embodiment, a loose-leaf line 103 is arranged between the movable plate and the fixed bonding region 102, and the design of the loose-leaf line 103 is beneficial to opening the cover, so that the cover is more smooth during use, and the user experience is improved.

Example one

In a first alternative embodiment, as shown in fig. 4, the spine support block 2 management indicia are a plurality of through holes 21 for binding attachment. A plurality of individually packaged printed matters can be connected in series by the through holes 21, and the connecting member to be connected in series may be a storage tape, a screw, or the like. For example, the printed matters of the same category placed in a classified mode are connected in series according to the placing sequence, so that the printed matters are connected, can be taken as a whole when taken at every time, and are put back as a whole when put back, the arrangement sequence among the printed matters cannot be disturbed, and the storage degree is further improved.

Meanwhile, the original structure of the printed matter cannot be damaged by the increase of the management identifier in the embodiment. In the embodiment, the through hole 21 can be punched after the spine binding structure is completed; holes are also punched before the housing 1 and the spine support block 2 are fixed, so that the housing 1 and the spine support block 2 form through holes 21 after being fixed.

Example two

In a second alternative embodiment, shown in figure 5, the administration label of the spine support block 2 is an electronic induction tag 22 for identification, enabling the addition of electronic identification of existing printed matter, replacing traditional writing tags, reducing routine maintenance costs, and providing a faster way to inventory. The electronic induction tag in the embodiment can update the content through the reader-writer, so that the user can update the content of the electronic tag when replacing the spine binding structure or replacing the internal printed matter.

In this embodiment, the management mark is first set on the spine support block 2, and then the spine support block 2 is fixed in the casing 1 to form a complete spine-adding binding structure. Preferably, the spine support block 2 is provided with a holding groove for holding the management identifier (the electronic induction tag 22), and then the management identifier is arranged in the holding groove, and finally the complete spine binding structure is formed after the casing 1 is fixed.

EXAMPLE III

In a third alternative embodiment, the management label of the spine support block 2 is an electronic sound production assembly, the electronic sound production assembly comprises a magnetic induction piece, a main chip, a sound production device and a storage battery, and the main chip stores coded data. This embodiment realizes carrying out the electronization to current ordinary printed matter and reforms transform, lets current printed matter have identification code to can send the ID number through the vocal ware, perhaps let current printed matter have more digital data, richen the printed matter text, and form the electron phonation book. During manufacturing, the electronic sounding assembly can be placed in the spine supporting block only by designing the groove position on the spine supporting block, and the electronic sounding assembly is very convenient. In this embodiment, a data interface for data communication or charging and discharging is provided on the surface or side of the spine support block 2, a sound hole for sound production is further provided on the surface of the spine support block 2, the sound hole corresponds to the sound generator, the coded data of the main chip is updated through the data interface, and the storage battery can be charged through the data interface.

In this embodiment, the management mark is first set on the spine support block 2, and then the spine support block 2 is fixed in the casing 1 to form a complete spine-adding binding structure. Preferably, the spine support block 2 is provided with a holding groove (including a data interface and a slotted hole corresponding to the sound outlet) for holding the management identifier (electronic sound component), and then the management identifier is arranged in the holding groove, and finally the complete spine binding structure is formed after the casing 1 is fixed.

In the invention, the thickness of the spine support block 2 is equal to that of the printed matter 3, so that the surface of the modified printed matter is flat, and the storage management of the printed matter is not influenced. The spine supporting block is made of fiberboard, ash board or paperboard, and can also be made of other materials convenient to cut.

The spine-adding binding structure can be directly fixed on the outer side of the existing complete book, or the spine-adding fixing structure can be directly fixed on the periphery of the book block to form a complete printed matter structure before the book is bound to form a book volume, namely, the printed matter in the invention can refer to the bound book or the book block which is not bound into the book volume, and the person skilled in the art can select the spine-adding binding structure according to specific conditions.

The production process of the spine-adding binding structure comprises the following steps:

(1) selecting raw materials of the shell and the spine supporting block;

(2) processing to form a shell and a spine supporting block with fixed dimensions;

(3) processing a loose-leaf line for forming the shell, and forming a fixed bonding area and a loose-leaf area by dividing the loose-leaf line;

(4) and fixing the spine supporting block in a cavity surrounded by the fixed bonding area.

In the first alternative embodiment, the shell and the spine support block are perforated in advance, and then the spine support block is fixed in the fixing and bonding area to form a spine-adding binding structure with a through hole; the spine supporting block can also be fixed in a cavity surrounded by the fixed bonding area and then punched to form the spine binding structure with the through hole.

In the second and third alternative embodiments, the receiving groove on the spine support block is processed, the management mark (such as the electronic sensing tag 22, the electronic sound component, etc.) is disposed in the receiving groove, and finally the spine support block with the management mark is fixed in the cavity surrounded by the fixing and bonding area, so as to form the complete spine binding structure.

On the other hand, the invention also provides a printed matter structure which comprises a book block, wherein the spine-adding binding structure of the scheme is arranged on the outer side of the book block.

In another aspect, the present invention further provides a method for spine-adding and binding printed products, comprising:

processing to form a book block;

the spine-adding binding structure of the scheme is fixed on the outer side of the book block.

The printed matter structure and the spine-adding binding method thereof provided by the invention are different from the existing binding method of printed matters such as glue binding or thread binding, and the binding method of the invention enables the printed matters to have sufficient spine space, thereby being more beneficial to managing or modifying the printed matters.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above examples only show some embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.