NO344550B1 - Reinforced cover for hardcover book and method for producing a reinforced cover - Google Patents

Description

Technical area

The present invention relates to a reinforced cover for binding books. More specifically, the present invention relates to a reinforced cover for bound books, where the spine of the cover is reinforced. The present invention also relates to a method for producing a reinforced cover, and the use of the reinforced resale when binding books.

Background technology

Modern book production has many possible qualities and types of binding.

Binding type is usually chosen based on the book's function, application, technical specifications and cost. Modern books are often bound as full-bound, half-bound or flexible. Full-bound and half-bound are types of binding for books with a stiff binding (cover), while flexible binding is a binding for books with a relatively soft cover. These mentioned types of binding have the common feature that the spine of the cover is not glued to the book block.

School books and library books are often subjected to harsh treatment, which results in particularly heavy wear and tear and the books not reaching their expected lifespan.

The spines of books are particularly exposed, in libraries when the book is pulled from the bookshelf, and with school pupils when the pupil pulls the book out of the school bag. The result is often that the spine loosens and is completely or partially torn from the book. Measures are normally taken to reinforce such books, and the most common method is the application of plastic foil on the outside of the books, i.e. on the outside of the book's cover. However, plasticizing books in this way entails a significantly increased cost for the books. From environmental considerations, it is also desirable to add as little plastic as possible to the books.

The shortened lifespan of books due to wear and tear leads to increased costs as schools and/or libraries have to replace books earlier than what should be the expected lifespan of the books. By being able to produce books that are in use for a longer period, this will thus be environmentally positive as this means fewer books that need to be produced, lower circulation and less consumption of paper.

The main principles of bookbinding are more or less the same as have existed for a long time, traditionally by hand, and industrially by the use of machines. Danish patent 55697 shows a bound book, in the traditional way, see Fig.1. Binding a book in a hardcover includes binding the sheets together (signatures) using thread or glue into a book block, the book block is cut, shaped and, if necessary, additional materials are applied. The book block is normally supplied with its own endpapers, on which the binding is glued. For modern full-bound books, a book cover is typically glued over a stiff front and back cover, and a loose spine, see Fig.2. The rigid bindings and the spine comprise binding cardboard, typically 1-4 mm thick, and form the inner components of the cover.

Norwegian patent 152779 shows a book with a flexible type of binding, that is, the cover (cover) is a soft cover where the spine of the cover is not attached or glued to the spine of the book block. In the case of flexible binding, the cover is typically a printed cover made of paper or cardboard that is punched out in the desired format. The side covers up to the spine are typically made with a fold/groove that makes the books easier to stay open. When binding, the cover will be folded in on all sides. The book block is then glued to the front cover. The cover normally has folds (ie oversize) in the same way as hardcover books. Flexi-bound books thus have, similarly to the bound books described above, loose spines which are particularly susceptible to wear and tear from heavy-handed use.

The purpose of the present invention is to provide a reinforced book cover for bound books. In particular, the cover for bound books according to the present invention is reinforced at the spine and the side covers adjacent to the spine. Books with reinforced binding, according to the present invention, withstand rough handling to a significantly greater extent, and in normal use will have a significantly longer lifespan than books produced by conventional methods. These and more advantages of the invention will be made clear in the following description of the invention.

Summary of the invention

In a first aspect, the present invention relates to a reinforced, machine-produced book cover for a bound book, as defined in the attached claim 1.

The present invention thus relates to a reinforced, machine-produced book cover for a bound book with stiff covers, where the book cover comprises inner components B consisting of a front binding board, a rear binding board and a loose spine, and a cover material A that covers the aforementioned inner components B , where the book cover further comprises a reinforcing material C, which has a high resistance to tearing and wear, selected from the group: paper materials with high breaking strength, textile materials, polymer materials and combination of textile and paper, which is arranged between the inner components B, consisting of a front binding board, a back binding board and a loose spine, and the covering material A, so that the reinforcing material C covers at least parts of the loose spine, the front binding board and the back binding board), so that the front binding board and the back binding board are joined to the loose spine via the reinforcing material C, where the reinforcing material C is folded over an upper edge and e n lower edge of the loose spine, as well as over an upper edge and a lower edge of, towards the loose spine adjacent, parts of the front binding cardboard and the rear binding cardboard, so that the reinforcing material C extends into the back of said loose spine, front binder and rear binder. The present invention is thus a reinforcement of the cover for a book with full-cover type binding.

In this context, "inner components", "inner components of binding board" or simply "binding board" shall mean binding board which is normally used in the production of covers for full-bound type books, i.e. books with stiff covers. The "inner components of binding board" thus include a front binding board, a rear binding board and a loose spine, unless otherwise specifically stated herein. "Cover material" is understood to mean binding material that is normally used in the production of covers for full-cover type books. The cover material is placed over the inner components and forms the outside of the book cover, while the inner components of binding cardboard face the front end and the book block when the book cover is used for binding a book. It should be understood that in the present invention the reinforcing material is applied to the internal components on the same side as the covering material is applied.

In the present context, "the inside of the cover" is to be understood as the side of the cover that faces the front pages and the book block when the book cover is used when binding a book. In general, the terms "inside", "backside" and "inner side" shall be understood to indicate the side of a book cover that faces the front pages and the book block when the book cover is used for binding a book, unless otherwise specifically stated.

In the case of a reinforced book cover with stiff covers, the reinforcing material is applied to the inside of the cover or to the internal components of the book cover, in contrast to book covers where reinforcing materials are applied to the outside of the cover, such as when plasticizing books.

In the following, alternative embodiments of the invention according to the first aspect are indicated:

The reinforcing material can cover the entire loose spine and extend laterally covering over, those towards the loose spine's adjacent, front and rear binder board edges.

In a second aspect of the invention, a method is provided for producing a reinforced book cover, as defined in the appended claim 4.

In the method for mechanically producing a reinforced book cover for a bound book, where the book cover comprises inner components B consisting of a front binding board, a back binding board and a loose spine, and a covering material A covering the said inner components B, where a reinforcing material C , having a high resistance to tearing and abrasion, selected from the group: paper materials with high breaking strength, textile materials, polymer materials and combinations of textile and paper, is applied to at least parts of the front binding board, the back binding board and the loose spine, so that the front binding cardboard and the rear binding cardboard are joined to the loose spine via the reinforcing material C, where the reinforcing material C is folded over an upper edge and a lower edge of the loose spine, as well as over an upper edge and a lower edge of, those towards the loose spine adjacent, parts of the front binder and the rear binder, so that the reinforcing material C extends into the back of the te loose spine, front binding board and back binding board, after which the covering material A is applied, so that the reinforcing material is placed between the inner components B and

the covering material, A.

In the following, alternative embodiments of the invention according to the second aspect are indicated:

The reinforcing material C can be applied so that it covers the entire loose spine and extends laterally covering over, those towards the loose spine's adjacent, front and rear binder board edges.

The reinforcing material C is applied by gluing.

In a third aspect, the present invention relates to the use of a reinforced book cover according to the invention and as defined in the appended claim 7, for the binding of full-cover books.

It is further described a bound book with a reinforced book cover, where the book comprises a book block consisting of sheets which are joined to each other at their spine edges, the book cover comprises inner components B, consisting of a front binding board, a back binding board and a loose spine, and a covering material A which covers the aforementioned inner components B, the book block is attached to the book cover via a cover sheet, where the book cover further comprises a reinforcing material C, which is arranged between the inner components B, consisting of a front binding board, a rear binding board and a loose spine, and the covering material A.

It is further described a bound book with a reinforced book cover, which is not part of the claimed invention, where the book comprises a book block consisting of sheets which are joined to each other at their spine edges, where the book cover comprises a cover D, which is made in one piece , and which defines a front cover, a back cover and a spine, the book block is attached to the book cover via a cover sheet, where a reinforcing material C is arranged on the inside of the cover D. It should be understood that "the inside of the cover D" is that side of the cover which faces the frontispiece and the book block when the book cover is used when binding a book.

In further embodiments, the present invention relates to a reinforced book cover for a bound book, where the cover comprises internal components of binding cardboard B consisting of a loose spine and front and rear binding cardboard, and the reinforcing material C is applied at least to parts of said loose spine and front and back binding cardboard. The reinforcing material C can cover the entire loose spine and extend laterally over, those towards the loose spine's adjacent, front and rear binding cardboard. The reinforcing material C can extend laterally 5-30 mm, for example 5-25 mm, 5-20 mm, 5-15 mm, 5-10 mm or 10-15 mm onto the adjacent front and rear binding boards of the loose spine .

The reinforcing material C is folded over the upper edges and the lower edges of the loose spine and parts of the front and rear binder boards, so that the reinforcing material C extends into the back of said loose spine and front and rear binder boards. The reinforcing material C can extend 5-30 mm, for example 5-25 mm, 5-20 mm, 5-15 mm, 5-10 mm or 10-15 mm into the back of said loose spine and front and rear binding cardboard.

The inner components of the binding board B which have been applied with reinforcing material C are further applied to a finished, pressed covering material A according to the normal procedure for the production of covers for complete bindings.

It is further described that the reinforcing material C is applied to the inside, i.e. the back, of at least parts of the spine D of the cover and the side covers adjacent to the spine, the reinforcing material C covers the entire spine D of the cover and extends onto those towards the spine adjacent page binders. The reinforcing material C can extend laterally 5-30 mm, for example 5-25 mm, 5-20 mm, 5-15 mm, 5-10 mm or 10-15 mm into the side covers adjacent to the spine.

The reinforcing material C can be applied only at the upper edges and at the lower edges at the back and the sides adjacent to the back.

The present invention provides a reinforced book cover where the reinforcing material is applied during production of the cover. The reinforced cover according to the present invention is produced by machine, and therefore provides a simpler and more cost-effective way of producing more durable books compared to other known methods for strengthening books, which often have to be carried out manually after the book has been produced. The reinforced book cover places no restrictions on book manufacturers with regard to the choice of cover material or other binding material, since the book cover is reinforced on the inside.

Brief description of the Figures

Figure 1 Hardcover book with stiff covers according to known technology.

Figure 2 Illustrates the typical structure of a bound book with stiff covers. Figure 3 Illustrates a known production of a cover with a stiff cover for a full-bound book. Figure 4a-f illustrates the steps for producing a stiff cover with reinforcement for a full-bound book according to the invention.

Figure 5a-b illustrates the steps for producing a cover with reinforcement for a flexible bound book (not according to the present invention).

Figure 6 Tear profile in the "Trouser tear" test, for a hardcover book with a reinforced cover, according to the present invention.

Detailed description

The present invention will be described in more detail with reference to the following figures.

Figure 1 shows a bound book with stiff covers according to traditional, known technique. A book block is attached to a piece of gauze 9, the ends 10 of which protrude slightly beyond the back of the book block. At the front and back of the book block, a double cover sheet (if applicable) 11 is attached, and then the book block is attached to the binding (the cover) by gluing the outermost cover sheet 11 together with the protruding ends 10 of the binding strip 9 to the inside of the cover's side pieces 5.

Modern book production follows the same main principles as explained above. Normal industrial procedure for producing a bound full-cover book includes the following steps; joining the signatures by glue milling, fade seal or thread stapling. A signature is one sheet that is folded two or more times where the sheet (normal) is halved each time. A signature consists of e.g. of 8, 12, 16 or 32 pages. A signature is often also referred to as a leg. Many signatures added together become a book block 8. Furthermore, endnotes 11 are glued to the book block 8, the book block 8 is spine-glued and dried. The book block 8 is then cut in a wood cutter, rounded and possibly applied with chapter band 4. When producing a fully bound book (book with stiff covers), the book block 8 is hung in a stiff cover, typically 1-4 mm binding cardboard, shaped and pressed in a step burner and is folded . All the processes surrounding the binding of a book take place automatically, both taking up and thread stapling the sheets, gluing end caps and binding. Normal production of a rigid cover (rigid covers) for complete volumes is shown in Figure 3; cut binding board B, which forms the inner components of the cover, i.e. front binding board 1, back binding board 1 and loose spine 3, is glued directly onto a finished, printed cover material A. The edges of the cover material A are folded in, before the book block is glued to the cover via the cover sheets.

Production of flexible bound books is essentially the same as described above, except for the production of the cover. On flexible binding, the cover is typically a printed cover in 180 - 350 g paper or cardboard, which is punched out to the correct format. The side covers up to the spine are typically made with a fold/groove that makes the books easier to stay open. When binding, the punched cover will be folded in on all sides. The book block is then glued to the front cover. The binding process itself is thus essentially the same as for a bound hardcover book.

The present invention thus differs from the generally known binding of books by the cover, as the book cover according to the present invention comprises a reinforcing material. With the reinforced cover according to the invention, the cover is reinforced by applying a reinforcing material to the inside of the cover. For a cover of a flexi-bound book, the reinforcing material is applied to the inside of the cover, i.e. the side facing the endpapers and the book block, while for a book cover of a full-bound book, i.e. with a stiff cover, the reinforcing material is glued to the inner components of binding board, so that the reinforcing material is placed between the binding board and the cover material A. The reinforcement of the cover is thus done during the production of the cover, i.e. before the endpapers with the book block are glued to the cover, during the binding process of a book. Binding of books is normally done by finishing work on a finished bound book. Plastering must therefore be done in a manual process, in contrast to the production of existing reinforced covers which can be done in a mechanical process using machines that are normally used in book production.

The present invention describes a cover for a bound book with a stiff cover. A reinforcing material C is applied to the book cover on the binding board B, in such a way that the reinforcing material extends at least over a part of the loose spine 3 of the cover, and laterally at least over a part of the side covers (front binding board 1 and back binding board 1 ), as illustrated by the production of a cover for a complete volume in Figures 4a-4f.

The reinforcing material C to be applied to the binding board B should be adapted so that it has a length at least equal to the height of the binding board B, i.e. the height of the spine board (loose spine 3), as illustrated in Figures 4a-4c. The reinforcing material C covers the entire loose spine 3 and extends laterally a bit into the front and rear binding cardboard 1, illustrated by reference numbers 13 and 13' in Figure 4c. For further reinforcement, the reinforcing material C is adapted to a length so that it is folded over the upper edge and the lower edge respectively of the loose spine 3 and front and rear binding cardboard 1 of the binder board B, so that the reinforcing material extends a bit into the back of the cardboard B, as illustrated in Figure 4d-4f.

In both of the described cases, as shown in the respective Figures 4a-c and in 4d-f, the reinforcing material C is glued firmly to the binding cardboard B. The reinforcing material should therefore have a width and length that is sufficient for it to sit well on the cardboard when gluing. Typically, the reinforcing material C will be cut to a size so that it extends approx.

5-30 mm, for example 15-25, 10-20 or 10-15 mm, above the binder 1 to the side covers (fields shown as 13 and 13' in Figures 4c and 4f). Correspondingly, the reinforcing material C should extend approx. 5-30 mm, for example 15-25, 10-20 or 10-15 mm into the back of the cardboard at the upper and lower edges, to ensure good fixing when gluing, when the reinforcing material C is folded over the edges of the binding cardboard B.

It is conceivable that the reinforcing material C is only glued at the upper and lower parts and/or edges of the binding board B, so that only the upper and lower parts and/or edges of the book's cover at the loose spine 3 and the transition to the front and rear binding board 1 is reinforced. Alternatively, the reinforcing material C can be folded over and glued only to the upper and lower parts of the spine and parts of the side covers. In the case of the mentioned partial reinforcements, the reinforcing material C extends approx. 5-30 mm, for example 15-25, 10-20 or 10-15 mm, over the binder 1 to the side bindings (corresponding fields shown as 13 and 13' in Figure 4c and 4f). Correspondingly, the reinforcing material C should extend approx. 5-30 mm, for example 15-25, 10-20 or 10-15 mm into the back of the cardboard at the upper and lower edges, to ensure good fixing when gluing, when the reinforcing material C is folded over the edges of the cardboard B.

The reinforcing material C can in practice be applied over larger surfaces of the binder board B than described above, i.e. the fields 13 and 13' can be extended laterally over the front and rear binder board 1. The reinforcing material C can also have an extent so that it covers a larger part of the back of the cardboard B, when it is folded over the upper and lower edges of the binding cardboard B. The reinforcing material C can in practice be applied over the entire cardboard B. However, such a full coverage, or coverage of larger surfaces, in most cases not appropriate for production and cost reasons.

After the spine-reinforcing material C has been glued to the binding board B, a covering material A is applied, in the same way as in the normal production of a full-cover book. The covering material A is thus glued over the reinforcing material C which is applied to binding cardboard B, so that the reinforcing material C lies between the binding cardboard B and the covering material A, and the covering material A is then folded in on each side. The result is a very strong bound book.

The reinforcing material C has a high resistance to tearing and wear. Paper materials with stronger fibers than in ordinary paper, textile materials, materials that are a combination of textile and paper, and polymer materials are examples of suitable materials. In general, it is desirable to reduce or preferably avoid materials of plastic types, therefore cellulose-based (paper) materials and textile materials are often preferred as the reinforced material C. A cellulose-based paper with a high content of long fibres, which is very durable and has a high breaking strength, will be particularly suitable as reinforcing material C. An example of a suitable material is a cellulose-based paper, known as Geltex. Geltex is available in 2 standard gram weights of 115 and 130 g/m2, both of which are suitable for carrying out the present invention. It should be noted that other gram weights are suitable for carrying out the invention.

The glue and all other materials used in the binding and gluing of the reinforcing material on the cover, according to the present invention, are the same as are normally used in the production of bound books.

The strip of reinforcing material C on the binding board creates extra wear resistance, for example when the book is opened and when it is pulled out of a bookshelf or out of a school bag. In this way, the book gains greater resistance to mechanical wear, and will therefore achieve an extended lifespan in normal use compared to conventionally bound books.

For further reinforcement, you can use binding material of similar wear resistance as the reinforcing material C, such as e.g. Geltex, as cover 11 rather than ordinary paper. Geltex is a paper with stronger fibers in the paper than ordinary paper and is therefore very well suited for inserts.

A reinforced cover for a flexible bound book is also described. The cover for a flexible book is, as mentioned above, normally produced in 180-350 g paper or cardboard, which is punched out in the desired format and folded in on all pages. The cover is thus made in one piece, which defines the spine and side covers of the cover. The side covers up to the spine are typically made with a fold/groove that makes the books easier to stay open. When binding, the cover will be folded in on all pages, then a book block with a front cover will be glued to the cover. The cover for a flexibly bound book does not have rigid covers and thus does not include internal components of binding board B.

A reinforcing material C, of a similar type and with properties as explained above, is glued on, at least on parts of the back of the flexibind cover D, see figures 5a-5c. The reinforcing material C should be applied so that it covers the entire spine 12 of the inside cover D (that is, the back of the cover D), and a few millimeters or centimeters into the spine-adjacent front and back sides of the flexible cover D, illustrated at 14 and 14' in Figure 5a. Typically, the reinforcing material C will be provided in a size so that it extends approx. 5-30 mm, for example 15-25, 10-20 or 10-15 mm, into the side covers. The reinforcing material C can have a similar height to the punched cover D, so that it is folded in together with the cover to the desired format, illustrated in Figure 5b. In the embodiment shown in Figure 5b, the reinforcing material C can be applied to the material for the cover before punching out the cover in the correct format. Figure 5c shows applied reinforcing material C at a height of the cover D so that the edges of the cover are folded over the reinforcing material C. The reinforcing material C can in practice only be applied over parts of the back of the cover, i.e. only at the upper and lower edges of the spine 12 and a bit into the sides of the cover. The reinforcing material C can also be glued over larger surfaces of the cover D, i.e. the fields 14 and 14' can be extended laterally over the front and back cover. The reinforcing material C can in practice be applied over the entire back side of the cover D. However, such full coverage, or coverage of larger surfaces, is not appropriate in most cases for production and cost reasons.

The strip of the reinforcing material C at the spine 12, as explained above, on the back side D of the flexible cover results in extra wear resistance, for example when the book is opened, when it is pulled out of a bookshelf or out of a school bag. In this way, the book becomes more resistant to mechanical wear and tear, and will therefore achieve a significantly longer lifespan in normal use compared to conventional flexi-bound books.

For further reinforcement, you can use binding material of similar wear resistance as the reinforcing material C, such as e.g. Geltex, as a cover rather than ordinary paper. Geltex is a paper with stronger fibers in the paper than ordinary paper and is therefore very well suited for inserts.

Test of books with binding with spine reinforcement according to the invention

Two types of tests were carried out to investigate the strength of books with different types of binding. In both tests, four different binding variants and materials were tested; PLC (printed and laminated cover), which is the usual method for the production of full-cover "hardcover" books (i.e. books with a stiff cover); back-reinforced PLC according to the present invention, where the back was reinforced with a strip of Geltex; Flexiband without back reinforcement; and softcover (ie "paperback book"). The spine-reinforced books according to the present invention had Geltex material applied to the spine, as illustrated in Figures 4d-4f, i.e. the strip of reinforced material was folded over the edges of the cardboard.

In the first test ("Trouser tear"), the strength of the book spine was tested by measuring the force required to tear the spine free from the cover. This test imitates the situation where books are pulled out of a bookshelf by pulling on the top of the book. In preparation for the test, the pages in the book were removed, i.e. the book block was taken out. Two cuts, 40 mm long, were made along the edges of the spine at one end of the book. Tape was attached to this cut end of the spine, which was subjected to tensile force during the test to measure the force required to tear the spine from the wrapper. The test was based on BS EN ISO 6383-3 (BS 2782-3 Method 360B "Determination of tear resistance of plastics film and sheeting by trouser tear method") using an Instron 5565 Tensile Tester equipped with a 100N load cell which is confirmed to ISO 7500 class 0.5. The gauge length was set just slightly longer than the length of the book in each case, and the drawing speed was 500 mm/min. Three test replicates were performed for each binding type.

Table 1: Test result "Trouser tear".

From the results in Table 1, it can be seen that full binding with a reinforced spine according to the present invention requires a significantly higher force to tear the spine loose. Figure 6 shows a typical graph profile for applied load/tear cycles in the "Trouser tear" tests for books with reinforced binding according to the present invention. It can be seen that the back withstood a relatively large force before it suddenly cracked a bit, and this was repeated over the entire length of the back. The back was ripped out as an even rectangular piece. The other binding types did not have a corresponding load/tear cycle. Nor were they torn out in a continuous rectangular piece over the entire length of the spine.

In order to compare the test measurements of the reinforced book spine according to the present invention with the other binding types, the average load was calculated. The results in the table therefore indicate the average load values over the entire tearing process in order to be able to compare the results with the other binding types.

In the second test, the tensile strength of the cover was tested by pulling the front and back covers in opposite directions (open book). The test illustrates e.g. a book held only by one side of the cover. The force required to cause a break in the connection between the front and back covers (binders) was measured. The method of measurement is based on BS EN ISO 527-3 (BS 2782-3 Method 326C) using an Instron 5565 Tensile Tester equipped with a 100N load cell which is confirmed to ISO 7500 class 0.5. Samples of the books were prepared by cutting into 25 mm wide strips, approximately 150 mm long. The samples were mounted in the measuring device by fixing one side of the cover in the upper gripper claw and the other side of the cover in the lower gripper claw.

The gauge length was set to 50 mm for each sample, and the tensile speed was 10 mm/min. A tension-elongation curve was generated, and the maximum force to cause a break in the connection between the covers (front and back cover) was measured. Three replicates for each sample were measured.

Table 1: Test result tensile strength of the cover.

The test results in Table 2 show that books with a binding with a reinforced spine according to the present invention resist significantly higher forces than the other types of binding that were tested.

Since preferred embodiments of the invention are described herein, it will be obvious to the person skilled in the art that other embodiments that fall within the scope of the present invention can be realized. The embodiments and examples of the invention described herein shall therefore not be considered limiting, as the actual scope of the invention shall be determined from the following claims.

Claims (7)

Patent claims 1. Reinforced, machine-produced book cover for a bound book, where the book cover comprises inner components (B) consisting of a front binding board (1), a back binding board (1) and a loose spine (3), and a cover material (A) which covers the aforementioned internal components (B), characterized in that the book cover further comprises a reinforcing material (C) which has a high resistance to tearing and wear, selected from the group: paper materials with high breaking strength, textile materials, polymer materials and combinations of textile and paper, which are arranged between the inner components (B), consisting of a front binding cardboard (1), a rear binding cardboard (1) and a loose spine (3), and the cover material (A), where the reinforcing material (C) covers at least parts of the loose spine (3), the front binding cardboard (1) and the rear binding cardboard (1) ), so that the front binding cardboard (1) and the rear binding cardboard (1) are joined to the loose spine (3) via the reinforcing the material (C), where the reinforcing material (C) is folded over an upper edge and a lower edge of the loose spine (3), as well as over an upper edge and a lower edge of the parts of the front binding cardboard (1) and the rear the binding cardboard (1), so that the reinforcing material (C) extends into the back of said loose spine (3), front binding cardboard (1) and rear binding cardboard (1). 2. Reinforced, machine-produced book cover according to claim 1, where the reinforcing material (C) covers the entire loose spine (3) and extends laterally covering the loose spine (3)'s adjacent front and back cardboard edges (13 ,13'). 3. Reinforced, machine-produced book cover according to any of the preceding claims 1-2, where the reinforcing material (C) is applied by gluing. 4. Method for mechanically producing a reinforced book cover for a bound book, where the book cover comprises internal components (B) consisting of a front binding board (1), a back binding board (1) and a loose spine (3), and a covering material (A ) covering the aforementioned internal components (B), characterized in that a reinforcing material (C), which has a high resistance to tearing and wear, selected from the group: paper materials with high breaking strength, textile materials, polymer materials and combination of textile and paper is applied to at least parts of the front binder board (1), the rear binding cardboard (1) and the loose spine (3), so that the front binding cardboard (1) and the rear binding cardboard (1) are joined to the loose spine (3) via the reinforcing material (C), where the reinforcing material ( C) is folded over an upper edge and a lower edge of the loose spine (3), as well as over an upper edge and a lower edge of the parts of the front binding cardboard (1) adjacent to the loose spine (3) and the the rear binding cardboard (1), so that the reinforcing material (C) extends into the back of said loose spine (3), front binding cardboard (1) and rear binding cardboard (1), after which the covering material (A) is applied, so that the reinforcing the material is placed between the inner components (B) and the cover the material (A). 5. Method according to claim 4, where the reinforcing material (C) is applied so that it covers the entire loose spine (3) and extends laterally covering the loose spine (3)'s adjacent front and back cardboard edges (13 ,13'). 6. Method according to any one of claims 4-5, where the reinforcing material is applied by gluing. 7. Use of a reinforced book cover according to any one of claims 1-3, when binding a full-cover book.