JP3215021U - Adhesive structure - Google Patents

Abstract

[PROBLEMS] To provide a wallpaper having a design according to the preference of the owner or user of a building, which allows the use of a magnetic fixture such as a magnet-type holder or a clip with a magnet on the wallpaper. Provide an adhesive structure between the substrate and wallpaper that can be selected. An adhesive structure 10 in which wallpaper 16 is pasted on a surface of a base 12 via a first adhesive layer 14 made of an adhesive containing magnetic powder, wherein the magnetic powder is manganese / zinc. The content ratio of the magnetic substance powder in the adhesive constituting the first adhesive layer 14 is 50 to 95% by weight in terms of solid content. [Selection] Figure 1

Description

  The present application relates to a bonding structure between a base such as a wall surface and wallpaper.

  Conventionally, various wallpaper has been attached to the inner wall surface of a building such as a house or a building using an adhesive for the purpose of decorating the inner wall surface. Also, in recent years, in general households, for example, with a magnet-type holder or magnet to keep memos (memo papers), leaflets, etc. on the side of a metal casing or the surface of a metal door in a refrigerator. Magnetic attachments such as clips (magnetic attachments) are widely used.

  Under such circumstances, in order to make it possible to use a magnetic fixture on the inner wall surface of a building, various types of wallpaper having magnetic properties have been proposed. For example, Patent Document 1 (Japanese Patent Application Laid-Open No. 11-272217) proposes a wall decoration sheet characterized by providing a magnetic layer containing a soft magnetic material on one side of a sheet-like substrate. Further, Patent Document 2 (Registered Utility Model No. 3170964) discloses that a sheet-like surface material and a backing material and an intermediate sheet material having magnetism interposed therebetween can be joined together. It is made of a three-layer laminate having flexibility, the three-layer laminate can be cut, and the backing material is bonded to an underlying surface such as a wall surface or a board with an adhesive paste. Characteristic magnetic wallpaper has been revealed.

  Conventional wall decoration sheets and magnetically-attached wallpaper such as those mentioned above are extremely useful in that magnetic attachments can be used on such wall surfaces by sticking them to the wall surface with adhesives or adhesive glue. It is useful for. On the other hand, these conventional wall surface decorative sheets have a problem that they cannot be used unless the user likes the decorative pattern applied on the surface.

Japanese Patent Laid-Open No. 11-272217 Registered Utility Model No. 3170964

  Here, the present invention has been made in the background of such circumstances, and the problem to be solved is that on the wallpaper, the magnet such as a magnet-type holder or a clip with a magnet is used. An object of the present invention is to provide an adhesive structure between a base and a wallpaper that enables use of a fixture (magnetic fixture).

  In order to solve such problems, the present invention has an adhesive structure in which wallpaper is pasted on the surface of the base via a first adhesive layer made of an adhesive containing magnetic powder. It is intended to be a specific aspect.

  In the adhesive structure according to the present invention having such a configuration as a basic aspect, a preferred first aspect is that the magnetic powder is manganese / zinc ferrite powder.

  Moreover, in the adhesive structure according to the present invention, in a preferred second aspect, the content ratio of the magnetic substance powder in the adhesive constituting the first adhesive layer is 50 to 95% by weight in terms of solid content.

  Furthermore, in the adhesive structure according to the present invention, a preferred third aspect is one in which the adhesive constituting the first adhesive layer contains an acrylic resin as an adhesive resin component.

  Furthermore, in the adhesive structure of the present invention, in a preferred fourth aspect, the thickness of the first adhesive layer is 0.25 mm or more.

  In addition, in a fifth preferred embodiment of the adhesive structure according to the present invention, a putty layer and a second adhesive layer are arranged in order from the first adhesive layer side between the first adhesive layer and the wallpaper. It is intervened.

  In the sixth preferred embodiment of the adhesive structure according to the present invention, the putty layer is made of gypsum putty.

  In a seventh preferred embodiment of the adhesive structure according to the present invention, the first adhesive layer includes at least one or more glass fiber mesh sheets or synthetic resin mesh sheets.

  As described above, in the adhesive structure according to the present invention, the first adhesive layer formed on the surface of the base is formed of the adhesive containing the magnetic powder. The fixture can be used. In addition, the base and wallpaper constituting the adhesive structure according to the present invention are limited to those composed of special materials as long as an adhesive capable of sticking the wallpaper to the surface of the base is selected. Instead, it is possible to appropriately select a background or wallpaper made of conventional materials. Therefore, it is possible to appropriately select a conventional wallpaper according to the preference of the owner or user of the building (customer), and the adhesive structure according to the present invention is Compared to the case of using conventional wall decoration sheets or magnetically-attached wallpaper, it is possible to meet a wide range of customer needs in terms of a high degree of freedom in wall design. . Furthermore, since the adhesive containing the magnetic powder is generally in the form of liquid or paste, the adhesive structure according to the present invention is more practical than the conventional magnetized wallpaper. It is also very convenient.

It is a partial section explanatory view in one embodiment of the adhesion structure concerning the present invention. It is a fragmentary sectional view in other embodiments of the adhesion structure concerning the present invention.

  Hereinafter, the present invention will be described in detail with appropriate drawings.

  FIG. 1 partially shows an embodiment of an adhesive structure according to the present invention in a cross-sectional view taken along a plane parallel to the laminating direction of the first adhesive layer and the wallpaper on the surface of the base. . As apparent from FIG. 1, the adhesive structure 10 is configured by pasting a wallpaper 16 on a surface of a base 12 constituting an inner wall surface of various buildings via a first adhesive layer 14. Is.

  Here, in the bonding structure according to the present invention, any material can be used as the base 12 as long as it is a member conventionally used for forming an inner wall of a building. Examples of such members include gypsum boards, calcium plates (calcium silicate plates), and various types of plywood. In addition, the adhesive structure according to the present invention can be applied to an inner wall formed by directly placing concrete, mortar, or the like as a base in the present invention. Among these members constituting the foundation, it is preferable to apply the present invention, particularly with a gypsum board as the foundation.

  As the wallpaper 16 constituting the adhesive structure of the present invention, any wallpaper that has been conventionally used can be used. Examples of such wallpaper include vinyl wallpaper mainly made of polyvinyl chloride (vinyl cloth), non-woven wallpaper (fleece wallpaper), woven wallpaper, olefin wallpaper, diatomaceous earth wallpaper, paper wallpaper, etc. Among these, vinyl wallpaper (vinyl cloth) is particularly advantageously used. In this way, in the adhesive structure according to the present invention, since it is possible to use any commonly used wallpaper, regardless of the material, the owner or user of the building (the consumer) ) Can be selected as appropriate according to the request of the request, and in this respect, the consumer can be given more freedom of choice in comparison with conventional wall-decorated sheets or magnetically-attached wallpaper, etc. It has become.

  In addition, in the adhesive structure according to the present invention, if the thickness of the wallpaper is too thin, functions as a wallpaper such as wall protection may not be sufficiently exhibited, while if the thickness of the wallpaper is too thick, There is a risk that it may be difficult to use a magnetic fixture having magnetic properties (magnetic force) (a magnetic fixture such as a magnet-type holder or a clip with magnet). For this reason, in the present invention, wallpaper having a thickness of about 0.2 to 1.0 mm is advantageously used.

  And in the adhesion structure 10 according to this invention, the wallpaper 16 is affixed on the surface of the foundation | substrate 12 via the 1st adhesion layer 14 which consists of an adhesive agent containing magnetic body powder, and is comprised. However, there are significant technical features. That is, since the magnetic substance powder is contained in the first adhesive layer 14 interposed between the base 12 and the wallpaper 16, the surface of the wallpaper 16 (the first adhesive layer in the wallpaper 16). When the magnet attached to the magnetic fixture is brought into contact with the surface on the opposite side to the surface on the 14 side, the wallpaper 16 is applied by the adsorption force between the magnet and the magnetic powder in the first adhesive layer 14. The magnetic fixture is fixed on the surface of the magnetic fixture, so that the magnetic fixture can be used.

  Here, in the adhesive structure according to the present invention, the magnetic substance powder contained in the adhesive constituting the first adhesive layer 14 is a powder of a substance capable of being magnetized, Any object can be used as long as it does not impede the purpose. Such magnetic powders include manganese / zinc ferrite powder, nickel / zinc ferrite powder, copper / zinc ferrite powder, copper / zinc / magnesium ferrite powder, ferrite powder such as magnesium / iron ferrite powder, Powders of metal alloys such as Fe-Al alloy, Fe-Si alloy, Sendust (Fe-Al-Si alloy), Permalloy (Ni-Fe alloy), Co-Fe-Si-B system, Co-Zr-Nb system, Examples thereof include amorphous alloy powder such as Co-Zr-Ta, ferromagnetic metal powder such as iron powder, ferromagnetic metal oxide powder, and metal nitride powder. Among these various magnetic powders, manganese / zinc ferrite powder is particularly advantageously used in the present invention. The magnetic powder used in the present invention preferably has an average particle size of about 0.1 to 150 μm.

  Moreover, it is preferable that such magnetic substance powder is contained in the adhesive which comprises the 1st contact bonding layer 14 in the ratio of 50 to 95 weight% in conversion of solid content. If the content of the magnetic powder in the adhesive is less than 50% by weight in terms of solid content, it may be difficult to use the magnetic fixture on the surface of the wallpaper 16, while the content of the magnetic powder is 95% by weight. If it exceeds 50%, the function as an adhesive may not be fully enjoyed.

  Furthermore, in the present invention, as the adhesive constituting the first adhesive layer 14, the wallpaper 16 can be applied to the base 12 when used in a state where the magnetic powder described above is contained. Any material that exhibits adhesiveness can be used. Adhesives used for buildings etc., for example, depending on the type and form of adhesive components contained therein, the presence or absence of a solvent, etc., acrylic resin emulsion adhesive, vinyl acetate resin emulsion adhesive, Rubber latex adhesives, epoxy adhesives, silicone adhesives, modified silicone adhesives, modified silicone / epoxy adhesives, vinyl acetate resin solvent adhesives, urethane adhesives, synthetic rubber adhesives In the present invention, an adhesive containing an acrylic resin as an adhesive resin component, more preferably an acrylic resin as an adhesive resin component, is classified as a cement adhesive, a starch adhesive, or the like. An emulsion type adhesive is used.

  In the case where the first adhesive layer 14 in the present invention is formed using an emulsion type adhesive containing an acrylic resin as an adhesive resin component and containing a magnetic powder, an adhesive containing the magnetic powder is used. Examples of the agent include 20 to 70% by weight of magnetic powder (50 to 95% by weight in terms of solid content), 3 to 15% by weight (2 to 20% by weight in terms of solid content) of an acrylic resin emulsion, 3 to 15% by weight of starch as an adhesive component (2.5 to 35% by weight in terms of solid content), and 1 to 6% by weight in total of other components such as thickeners, dispersants and fungicides (solid Examples include those containing 0.5 to 3.5% by weight in terms of minutes) and 23 to 45% by weight (0% by weight in terms of solids) of water.

  Further, in the adhesive structure according to the present invention, if the thickness of the first adhesive layer 14 is too thin, the amount of the magnetic powder contained therein becomes too small. As a result, the magnetism on the surface of the wallpaper 16 is reduced. Use of the fixture may be difficult. Therefore, the thickness of the first adhesive layer 14 in the adhesive structure of the present invention is preferably 0.25 mm or more. On the other hand, the upper limit of the thickness of the first adhesive layer 14 is not particularly limited, but if the thickness of the first adhesive layer 14 is too thick, the amount of adhesive used inevitably increases. In addition, since it takes time to dry and solidify and there is a risk of deteriorating the manufacturing cost of the adhesive structure according to the present invention, the upper limit of the thickness of the first adhesive layer 14 is usually about 2 mm. . In addition, the thickness of the 1st contact bonding layer 14 means the thickness of the layer formed after apply | coating the adhesive agent containing magnetic body powder to a base surface, and making it dry and solidify.

  On the other hand, FIG. 2 shows another embodiment of the bonding structure according to the present invention cut in a plane parallel to the stacking direction, such as the first bonding layer stacked on the surface of the base, as in FIG. It is partially shown in the sectional view taken. In the bonding structure 20 shown in FIG. 2, the same reference numerals are given to the parts having the same configuration as the bonding structure 10 shown in FIG. 1 described above, and detailed description thereof will be omitted.

  As apparent from FIG. 2, the adhesive structure 20 shown therein includes a putty layer 22 formed between the first adhesive layer 14 formed on the surface of the base 12 and the wallpaper 16. A second adhesive layer 24 is formed on the surface 22 and configured.

  By forming the putty layer 22, it is possible to effectively suppress the unevenness of the surface of the base 12 from appearing on the surface of the wallpaper 16, and it is possible to advantageously prevent the color of the base 12 from passing through the wallpaper 16. In addition, as the putty (paste-like filler) constituting the putty layer 22, any material that has been conventionally used in buildings can be used as long as it does not hinder the purpose of the present invention. Is possible. Examples of putty used in the adhesive structure according to the present invention include gypsum putty, calcium carbonate putty, epoxy putty, and emulsion putty. Among them, gypsum putty is advantageously used. Further, if the putty layer 22 is too thick, the coercive force (magnet attracting force) on the surface of the wallpaper 16 is lowered and the use of the magnetic fixture may be difficult. It is preferable that it is 2 mm or less.

  The adhesive structure 20 is configured by forming a second adhesive layer 24 for attaching the wallpaper 16 on the surface of the putty layer 22. Examples of the adhesive constituting the second adhesive layer 24 include those described above as the adhesive constituting the first adhesive layer 14, the starch-based adhesive for wallpaper pasting, and the like. Therefore, an appropriate one is selected and used. The thickness (the thickness of the layer formed after applying an adhesive and drying and solidifying) is preferably about 0.1 mm.

  As mentioned above, although two typical embodiment of the adhesion | attachment structure according to this invention has been described in full detail, it cannot be overemphasized that this invention is not limited to the aspect mentioned above.

  For example, in the first adhesive layer 14 in the adhesive structure 10 shown in FIG. 1 or in the first adhesive layer 14 in the adhesive structure 20 shown in FIG. 2, at least one glass fiber or synthetic resin is used. Including the mesh sheet is advantageously carried out. Thus, by including a predetermined mesh sheet in the first adhesive layer 14, the thickness of the first adhesive layer 14 can be reduced while the amount of the adhesive containing the magnetic powder is small. The advantage that it can be secured can be enjoyed.

  In the adhesive structure according to the present invention, a glass fiber mesh sheet or a mesh sheet made of synthetic fiber such as polyester and having a thickness of about 0.1 to 0.5 mm is advantageously used. In addition, if the number of mesh sheets included in the first adhesive layer is too large, the thickness of the first adhesive layer becomes unnecessarily thick, and the amount of the adhesive containing the magnetic powder is extremely small. Thus, about 1 to 5 mesh sheets are used depending on the thickness of the mesh sheet to be used because it may be difficult to use the magnetic fixture on the wallpaper surface. In the present invention, a glass fiber mesh sheet widely used in buildings and having an adhesive sheet attached to one surface is particularly advantageously used.

  In the adhesive structure according to the present invention, the mesh sheet only needs to be included in the first adhesive layer, and the form of the mesh sheet in the first adhesive layer is not particularly limited. . For example, in the adhesive structure 10 shown in FIG. 1 or the adhesive structure 20 shown in FIG. 2, one or more mesh sheets are placed on the surface of the base 12, and the magnetic powder is placed on the placed mesh sheets. It is possible to form the 1st contact bonding layer which includes a mesh sheet by apply | coating the adhesive agent containing this. In this case, the mesh sheet is biased to the lower side (base 13) side of the first adhesive layer 14.

  In addition, although not enumerated one by one, the present invention can be implemented in an aspect to which various changes, modifications, improvements, and the like are added based on the knowledge of those skilled in the art. It goes without saying that any one of them belongs to the category of the present invention without departing from the spirit of the present invention.

  On the other hand, the adhesive structure 10 shown in FIG. 1 or the adhesive structure 20 shown in FIG. 2 that includes a glass fiber mesh sheet in each first adhesive layer 14 is, for example, according to the following steps. It is possible to manufacture.

  First, an adhesive obtained by adding a predetermined amount of magnetic powder to a predetermined liquid adhesive, a glass fiber mesh sheet having an adhesive sheet affixed on one side, a gypsum putty, and a starch for wallpaper application A system adhesive and wallpaper (16) are prepared.

  In the case of the adhesive structure 10 shown in FIG. 1, one or a plurality of glass fiber mesh sheets are attached to a construction location in the base 12. When using a plurality of mesh sheets, the mesh sheets are pasted so as to be arranged on the construction site of the base 12 in a state where the mesh sheets are overlapped. Next, a liquid adhesive containing a magnetic powder is applied to the mesh sheet with a predetermined thickness using a patevera, a brush, a roller, an iron brush or the like. And by adding water and diluting the adhesive containing the magnetic powder to the back side of the wallpaper with a roller, the wallpaper 16 is immediately pasted on the construction site in the base 12 and dried and solidified. Thus, the adhesion structure 10 is obtained.

  In addition, for the bonding structure 20 shown in FIG. 2, according to the same method as described above, one or a plurality of glass fiber mesh sheets are attached to the construction site in the base 12, and the magnetic powder is contained on the mesh sheet. The liquid adhesive to be applied is applied and the liquid adhesive is dried and solidified (formation of the first adhesive layer 14). Next, a gypsum putty is applied on the first adhesive layer 14 at a predetermined thickness and dried to form the putty layer 22. And the adhesion structure 20 is obtained by affixing the wallpaper 16 by which the starch-type adhesive for wallpaper affixing was apply | coated on the back surface on the putty layer 22. FIG.

  In the adhesive structure of the present invention obtained as described above, since the magnetic powder is contained in the first adhesive layer, the magnetic fixture can be used on the surface of the wallpaper. -ing In addition, the base and wallpaper constituting the adhesive structure according to the present invention are limited to those composed of special materials as long as an adhesive capable of sticking the wallpaper to the surface of the base is selected. Therefore, it is possible to appropriately select a wallpaper according to the consumer's preference from among widely used wallpaper. Therefore, the adhesive structure according to the present invention is capable of meeting a wide range of customer needs, especially in terms of wall design, compared to the case of using conventional wall decoration sheets or magnetically-attached wallpaper. It is.

  Here, in order to confirm the magnet attractive force in the bonding structure of the present invention, the following experiments were conducted.

-Experiment 1
First, a predetermined amount of manganese / zinc-based ferrite powder (average particle size: 5.0 ± 1.0 μm) is added to an emulsion-type adhesive containing an acrylic resin as an adhesive resin component. A liquid adhesive containing zinc-based ferrite powder was prepared. The composition of the prepared liquid adhesive was as follows: manganese / zinc ferrite powder: 65% by weight, acrylic resin emulsion: 3% by weight, starch: 3% by weight, others (thickener, dispersant, fungicide, etc.): 3% by weight, water: 26% by weight. Moreover, the commercially available vinyl wallpaper (vinyl cloth) whose thickness is 0.26 mm, 0.54 mm, and 0.80 mm was prepared.

  A plate-shaped body having a predetermined size (length: 40 mm × width: 40 mm) is cut out from a gypsum board having a predetermined thickness, and the liquid adhesive (magnetic powder) previously prepared is applied to one surface of the plate-shaped body. Adhesive) was applied using a brush. On the other hand, a piece of cloth having the same size and shape as the plaster board of a gypsum board is cut out from a vinyl cloth, and diluted by adding 20% by weight of water to the liquid adhesive on the back side of the cloth piece. The test surface was obtained by coating the coated surface using a roller, and immediately bonding the coated surface onto the layer made of the liquid adhesive on the plate-like body, and then allowing the liquid adhesive to dry and solidify. . A plurality of test specimens were prepared by changing the coating amount of the liquid adhesive (the thickness of the adhesive layer after drying) and the thickness of the wallpaper used. In addition, the thing which apply | coated the liquid adhesive on the plate-shaped object of the gypsum board, and solidified by drying without bonding a cross piece was also prepared as a test body.

  Using a test piece prepared as described above with a ferrite magnet (attraction force to an iron plate having a thickness of 3 mm: 300 g) magnetically attached to the surface on the cross piece side of the test piece, a tensile speed using an autograph: A tensile test was performed under the condition of 200 mm / min, and the stress (magnet adsorption force of the test specimen) when the test specimen and the ferrite magnet were separated was measured. The test results for each specimen are shown in Table 1 below in relation to the thickness of the adhesive layer after drying in the specimen and the thickness of the wallpaper used.

  The inventor knows that a general magnetic fixture can be used when the magnet attracting force on the wallpaper surface exceeds about 10% of the attracting force of the magnet used. According to this, when the wallpaper having a thickness of 0.26 mm is used under the condition of Experiment 1 described above, the thickness of the adhesive layer is set to 0.29 mm or more, and the wallpaper having a thickness of 0.54 mm is used. The thickness of the adhesive layer is set to 0.43 mm or more, and when wallpaper having a thickness of 0.80 mm is used, the thickness of the adhesive layer is set to 0.43 mm or more. It can be seen from Table 1 that the magnet attracting force is developed to such an extent that the fixture can be used.

-Experiment 2-
A liquid adhesive containing magnetic powder, a plaster board body, and a vinyl cloth cloth piece similar to those used in Experiment 1 were prepared. Moreover, the sheet piece which exhibits the same magnitude | size and shape as a plate-shaped body etc. was cut out and prepared from the mesh sheet | seat (thickness: 0.2 mm) made from a glass fiber by which an adhesive sheet was affixed on one side. One to four sheet pieces were affixed to the surface of the plaster board, and a liquid adhesive was applied from above the sheet pieces using a brush. Then, on the back side of the cloth piece, a liquid adhesive diluted with water corresponding to 20% by weight is applied using a roller, and the application surface is removed from the liquid adhesive on the plate-like body. A test specimen was obtained by immediately laminating on the resulting layer and then drying and solidifying the liquid adhesive. In addition, the thing which apply | coated the liquid adhesive on the sheet piece affixed on the plate-shaped body surface of a gypsum board without sticking a cross piece and dried and solidified was also prepared as a test body.

  The test piece obtained as described above was used in the same manner as in Experiment 1 except that a ferrite magnet (adsorption force to an iron plate having a thickness of 3 mm: 300 g) was adsorbed on the surface on the cross piece side. A tensile test was performed according to the above conditions, and the stress (magnet adsorption force of the test specimen) when the test specimen and the ferrite magnet were separated was measured. The test results for each specimen are shown in Table 2 below in relation to the number of sheet pieces and the thickness of the adhesive layer in the specimen and the thickness of the wallpaper used.

  As is clear from the results of Table 2, even in an adhesive structure in which a glass fiber mesh sheet is included in an adhesive layer containing magnetic powder, a general magnetic fixture can be used on the wallpaper surface. It is recognized that the magnet attracting force is developed as much as possible.

-Experiment 3-
The following experiment was conducted in order to confirm that the magnet attracting force developed changes depending on the amount of the magnetic powder contained in the adhesive constituting the adhesive layer. Manganese / zinc-based ferrite powder (average particle size: 5.0 ± 1.0 μm) is added to an emulsion-type adhesive containing an acrylic resin as an adhesive resin component, and the manganese / zinc-based ferrite content is converted to solid content. Five types of liquid adhesives contained in the proportions shown in Table 3 below were prepared. Apply a predetermined amount of each prepared liquid adhesive to one side of a plaster board plate having the same size and shape as those used in Experiments 1 and 2, and dry and solidify the adhesive. Thus, a test body having an adhesive layer with a thickness of 0.9 mm was produced. Then, the stress (test) when the test body and the ferrite magnet were separated using a sample in which a ferrite magnet (adsorption force to an iron plate having a thickness of 3 mm: 340 g) was magnetically attached to the surface of the adhesive layer in the test body The magnet attracting force of the body was measured with a spring-type hand balance. The test results for each specimen are shown in Table 3 below.

  According to what the present inventors have known, using a ferrite magnet having an adsorption force of 340 g on an iron plate having a thickness of 3 mm, an adsorption force exceeding about 10% of the adsorption force of the ferrite magnet is obtained through wallpaper. In order to achieve this, it is necessary that the adhesive layer containing the magnetic powder exhibits a magnet attracting force exceeding 54 g. According to this, in the present invention, it is recognized from the results in Table 3 that the content ratio of the magnetic substance powder in the adhesive constituting the first adhesive layer is preferably 50% by weight or more.

DESCRIPTION OF SYMBOLS 10 Adhesive structure 12 Base 14 First adhesive layer 16 Wallpaper 20 Adhesive structure 22 Putty layer 24 Second adhesive layer

Claims (8)

  An adhesive structure in which wallpaper is attached to the surface of the base via a first adhesive layer made of an adhesive containing magnetic powder.   The adhesive structure according to claim 1, wherein the magnetic powder is manganese / zinc ferrite powder.   The adhesive structure according to claim 1 or 2, wherein a content ratio of the magnetic substance powder in the adhesive constituting the first adhesive layer is 50 to 95% by weight in terms of solid content.   The adhesive structure according to any one of claims 1 to 3, wherein the adhesive constituting the first adhesive layer contains an acrylic resin as an adhesive resin component.   The adhesive structure according to any one of claims 1 to 4, wherein a thickness of the first adhesive layer is 0.25 mm or more.   The putty layer and the second adhesive layer are interposed in order from the first adhesive layer side between the first adhesive layer and the wallpaper, according to any one of claims 1 to 5. The adhesive structure described.   The adhesive structure according to claim 6, wherein the putty layer is made of gypsum putty. The adhesive structure according to any one of claims 1 to 7, wherein the first adhesive layer includes at least one or more glass fiber mesh sheets or synthetic resin mesh sheets.

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