CN109779176B - Electromagnetic radiation safety protection construction method for home decoration - Google Patents

Abstract

The invention discloses an electromagnetic radiation safety protection construction method for home decoration, which comprises the following steps: A. treating a base layer of the wall surface and the top surface; B. constructing electromagnetic shielding layers on the wall surface and the top surface: bonding the electromagnetic shielding layer on the leveling layer through an environment-friendly adhesive; C. constructing decorative surface layers on the wall surface and the top surface; D. processing a ground base layer; E. constructing a ground electromagnetic shielding layer; F. constructing a ground surface layer; G. and (5) door and window construction. The invention develops a whole set of process method for home decoration electromagnetic shielding construction, and can realize good electromagnetic radiation prevention effect in a specific area in a home environment such as a bedroom.

Description

Electromagnetic radiation safety protection construction method for home decoration

Technical Field

The invention relates to a home decoration construction method, in particular to a home decoration electromagnetic shielding construction method.

Background

With the development of science and technology and the expansion of cities, the problem of electromagnetic radiation is more and more prominent. It is presently believed that electromagnetic radiation, like atmospheric pollution, water pollution, solid waste, noise pollution, also constitutes an environmental pollution in a sense. Electromagnetic radiation sources are increasing and even include some high energy electromagnetic radiation.

Although the non-ionizing radiation with low energy level generally does not cause much direct damage to human bodies, the non-ionizing radiation still brings certain influence to the life of people. Further, specific safety protection requirements, including information safety, etc., need to be achieved through electromagnetic shielding, which is common in the industrial field. At present, people have stronger and stronger electromagnetic shielding requirements for specific spaces (such as bedrooms) in homes, however, no mature electromagnetic shielding construction technology exists at present in the aspect of home decoration.

Disclosure of Invention

The invention aims to overcome various defects in the prior art and provide a construction method for electromagnetic radiation safety protection of home decoration.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows.

A construction method for electromagnetic radiation safety protection of home decoration comprises the following steps:

A. treating a base layer of the wall surface and the top surface: cleaning the surfaces of the wall surface and the top surface base layer until no obvious floating dust exists, and then leveling cracks, depressions and bulges which can be seen by naked eyes;

B. constructing electromagnetic shielding layers on the wall surface and the top surface: bonding the electromagnetic shielding layer on the leveling layer through an environment-friendly adhesive;

the electromagnetic shielding layer takes flexible stretch-resistant cloth as a base material, composite conductive microparticles are sprayed on one side surface or two side surfaces of a cloth base material main body to form a conductive particle layer, or a metal conductive wire mesh is woven by attaching the cloth base material main body; spraying composite conductive micro-particles on the two sides of the peripheral edge of the cloth substrate within the range of 1-10cm to form a conductive overlapping area of the electromagnetic shielding layer, and overlapping adjacent electromagnetic shielding layers through the conductive overlapping area;

the following pre-lap operation is performed before the formal lap joint: before lapping, firstly, cleaning the surfaces of two groups of actual lapping surfaces of a conductive lapping area by using an electric brush in a sweeping mode, and spraying aqueous dispersion liquid containing carbon particles to the two groups of actual lapping surfaces after cleaning so as to form a layer of water mist on the surfaces of the actual lapping surfaces; after the pre-lapping is finished, pressing the two groups of actual lapping surfaces together to finish lapping;

C. constructing the decorative surface layer of the wall surface and the top surface: after the electromagnetic shielding layer is constructed, constructing a decorative surface layer of the wall surface and the top surface, wherein the decorative surface layer comprises a decorative paint layer, a decorative wall paper layer, a decorative plaster layer and a decorative diatomite layer; the construction is carried out by adopting the conventional home decoration process;

D. ground base layer treatment: cleaning the surface of the ground base layer until no obvious floating dust exists, and then leveling cracks, depressions and bulges which can be seen by naked eyes;

E. construction of a ground electromagnetic shielding layer: after ground leveling, directly bonding the electromagnetic shielding layer on the leveling layer through the environment-friendly adhesive under the working condition of floor tile construction; for the working condition of floor construction, the electromagnetic shielding layer is bonded by the environment-friendly adhesive after the construction of the moisture-proof layer is finished;

the electromagnetic shielding layer takes flexible stretch-resistant cloth as a base material, composite conductive microparticles are sprayed on one side surface or two side surfaces of a cloth base material main body to form a conductive particle layer, or a metal conductive wire mesh is woven by attaching the cloth base material main body; spraying composite conductive micro-particles on the two sides of the peripheral edge of the cloth substrate within the range of 1-10cm to form a conductive overlapping area of the electromagnetic shielding layer, and overlapping adjacent electromagnetic shielding layers through the conductive overlapping area;

the following pre-lap operation is performed before the formal lap joint: before lapping, firstly, cleaning the surfaces of two groups of actual lapping surfaces of a conductive lapping area by using an electric brush in a sweeping mode, and spraying aqueous dispersion liquid containing carbon particles to the two groups of actual lapping surfaces after cleaning so as to form a layer of water mist on the surfaces of the actual lapping surfaces; after the pre-lapping is finished, pressing the two groups of actual lapping surfaces together to finish lapping;

F. construction of a ground surface layer: after the electromagnetic shielding layer is constructed, constructing a ground surface layer, wherein the ground surface layer comprises a polished floor brick layer, a glazed floor brick layer, a matte floor brick layer, a natural stone floor brick layer, a stone-like floor brick layer, a pure wood floor layer and a composite wood floor layer; the construction is carried out by adopting the conventional home decoration process.

As a preferred technical solution of the present invention, in step B, E, geometric calculation is performed according to the room configuration before construction, and the solution with the shortest lap joint length is selected as the construction solution.

As a preferred embodiment of the present invention, in step B, E, the boundary area between the wall surface and the ceiling surface and the boundary area between the wall surface and the ground are defined as the overlapping area of the electromagnetic shielding layer.

As a preferred technical solution of the present invention, in step B, E, the environment-friendly adhesive is white latex or glutinous rice glue.

As a preferred technical solution of the present invention, in step B, E, the flexible stretch-resistant fabric is a pure cotton fabric, a chemical fiber fabric, or a blended fabric.

As a preferable embodiment of the present invention, in step B, E, the composite conductive microparticles include composite metal particles and/or carbon-based conductive particles and/or nanocrystalline conductive particles.

As a preferred technical solution of the present invention, in step B, E, the electric brush is made by adding a plastic brush head to an existing electric toothbrush; the electric toothbrush adopts an electric toothbrush with pressure detection, so that the pressure when two groups of actual lap joint surfaces of the conductive lap joint area are brushed is lower than the pressure alarm value.

As a preferred technical solution of the present invention, the step F further includes the following post-treatment steps: G. door and window construction: the transparent electromagnetic shielding film layer is attached to the surface of the door and window, and electromagnetic shielding cloth is used as a curtain material to complete electromagnetic shielding construction of the door and window.

A construction method for electromagnetic radiation safety protection of home decoration comprises the following steps:

A. ground base layer treatment: cleaning the surface of the ground base layer until no obvious floating dust exists, and then leveling cracks, depressions and bulges which can be seen by naked eyes;

B. construction of a ground electromagnetic shielding layer: after ground leveling, directly bonding the electromagnetic shielding layer on the leveling layer through the environment-friendly adhesive under the working condition of floor tile construction; for the working condition of floor construction, the electromagnetic shielding layer is bonded by the environment-friendly adhesive after the construction of the moisture-proof layer is finished;

the electromagnetic shielding layer takes flexible stretch-resistant cloth as a base material, composite conductive microparticles are sprayed on one side surface or two side surfaces of a cloth base material main body to form a conductive particle layer, or a metal conductive wire mesh is woven by attaching the cloth base material main body; spraying composite conductive micro-particles on the two sides of the peripheral edge of the cloth substrate within the range of 1-10cm to form a conductive overlapping area of the electromagnetic shielding layer, and overlapping adjacent electromagnetic shielding layers through the conductive overlapping area;

the following pre-lap operation is performed before the formal lap joint: before lapping, firstly, cleaning the surfaces of two groups of actual lapping surfaces of a conductive lapping area by using an electric brush in a sweeping mode, and spraying aqueous dispersion liquid containing carbon particles to the two groups of actual lapping surfaces after cleaning so as to form a layer of water mist on the surfaces of the actual lapping surfaces; after the pre-lapping is finished, pressing the two groups of actual lapping surfaces together to finish lapping;

C. construction of a ground surface layer: after the electromagnetic shielding layer is constructed, constructing a ground surface layer, wherein the ground surface layer comprises a polished floor brick layer, a glazed floor brick layer, a matte floor brick layer, a natural stone floor brick layer, a stone-like floor brick layer, a pure wood floor layer and a composite wood floor layer; the construction is carried out by adopting the conventional home decoration process;

D. treating a base layer of the wall surface and the top surface: cleaning the surfaces of the wall surface and the top surface base layer until no obvious floating dust exists, and then leveling cracks, depressions and bulges which can be seen by naked eyes;

E. constructing electromagnetic shielding layers on the wall surface and the top surface: bonding the electromagnetic shielding layer on the leveling layer through an environment-friendly adhesive;

the electromagnetic shielding layer takes flexible stretch-resistant cloth as a base material, composite conductive microparticles are sprayed on one side surface or two side surfaces of a cloth base material main body to form a conductive particle layer, or a metal conductive wire mesh is woven by attaching the cloth base material main body; spraying composite conductive micro-particles on the two sides of the peripheral edge of the cloth substrate within the range of 1-10cm to form a conductive overlapping area of the electromagnetic shielding layer, and overlapping adjacent electromagnetic shielding layers through the conductive overlapping area;

the following pre-lap operation is performed before the formal lap joint: before lapping, firstly, cleaning the surfaces of two groups of actual lapping surfaces of a conductive lapping area by using an electric brush in a sweeping mode, and spraying aqueous dispersion liquid containing carbon particles to the two groups of actual lapping surfaces after cleaning so as to form a layer of water mist on the surfaces of the actual lapping surfaces; after the pre-lapping is finished, pressing the two groups of actual lapping surfaces together to finish lapping;

F. constructing the decorative surface layer of the wall surface and the top surface: after the electromagnetic shielding layer is constructed, constructing a decorative surface layer of the wall surface and the top surface, wherein the decorative surface layer comprises a decorative paint layer, a decorative wall paper layer, a decorative plaster layer and a decorative diatomite layer; the construction is carried out by adopting the conventional home decoration process.

As a preferred technical scheme of the invention, the method also comprises the following processing steps before, during or after the steps A-F: door and window construction: the transparent electromagnetic shielding film layer is attached to the surface of the door and window, and electromagnetic shielding cloth is used as a curtain material to complete electromagnetic shielding construction of the door and window.

Adopt the produced beneficial effect of above-mentioned technical scheme to lie in: the invention develops a whole set of process method for home decoration electromagnetic shielding construction, composite metal particles, carbon series conductive particles, nano microcrystal conductive particles and electromagnetic shielding conductive cloth are used as base materials, indoor and outdoor walls, ceilings and the ground are sprayed and seamlessly covered, and meanwhile, door and window spokes are covered by transparent electromagnetic shielding films and curtains made of the electromagnetic shielding cloth, so that the excellent electromagnetic radiation prevention effect in a specific area (bedroom) in the home environment can be realized.

Incidentally, use anti-electromagnetic shielding cloth in fitment not only can play electromagnetic radiation's effect, the fracture of the wall of can also better preventing fitment simultaneously.

Detailed Description

The following examples illustrate the invention in detail. The raw materials and various devices used in the invention are conventional commercially available products, and can be directly obtained by market purchase.

Example 1, construction of the floor first and the wall surface second and the door and window later.

The construction method of the embodiment takes the ground, the wall surface, the top surface and the door and window as the construction sequence, and comprises the following steps:

A. ground base layer treatment: cleaning the surface of the ground base layer until no obvious floating dust exists, and then leveling cracks, depressions and bulges which can be seen by naked eyes;

B. construction of a ground electromagnetic shielding layer: after ground leveling, directly bonding the electromagnetic shielding layer on the leveling layer through the environment-friendly adhesive under the working condition of floor tile construction; for the working condition of floor construction, the electromagnetic shielding layer is bonded by the environment-friendly adhesive after the construction of the moisture-proof layer is finished; the electromagnetic shielding layer takes flexible stretch-proof cloth (polyester fiber) as a base material, and the flexible stretch-proof cloth adopts pure cotton cloth, chemical fiber cloth or blended cloth; spraying composite conductive microparticles on the single side or double sides of the cloth substrate main body to form a conductive particle layer (a metal conductive wire mesh can be woven depending on the cloth substrate main body or a metal wire is added in the cloth weaving process, so that the technical maturity is high); the composite conductive microparticles comprise composite metal particles and/or carbon-based conductive particles and/or nanocrystalline conductive particles; spraying the composite conductive micro-particles on the two sides of the peripheral edge of the cloth substrate within 10cm to form a conductive overlapping area of the electromagnetic shielding layer, and overlapping adjacent electromagnetic shielding layers through the conductive overlapping area;

C. construction of a ground surface layer: after the electromagnetic shielding layer is constructed, constructing a ground surface layer, wherein the ground surface layer comprises a polished floor brick layer, a glazed floor brick layer, a matte floor brick layer, a natural stone floor brick layer, a stone-like floor brick layer, a pure wood floor layer and a composite wood floor layer; the construction is carried out by adopting the conventional home decoration process;

D. treating a base layer of the wall surface and the top surface: cleaning the surfaces of the wall surface and the top surface base layer until no obvious floating dust exists, and then leveling cracks, depressions and bulges which can be seen by naked eyes;

E. constructing electromagnetic shielding layers on the wall surface and the top surface: bonding the electromagnetic shielding layer on the leveling layer through an environment-friendly adhesive; the construction method is similar to the step B;

F. constructing the decorative surface layer of the wall surface and the top surface: after the electromagnetic shielding layer is constructed, constructing a decorative surface layer of the wall surface and the top surface, wherein the decorative surface layer comprises a decorative paint layer, a decorative wall paper layer, a decorative plaster layer and a decorative diatomite layer; the construction is carried out by adopting the conventional home decoration process;

g: door and window construction: the transparent electromagnetic shielding film layer is attached to the surface of the door and window, and electromagnetic shielding cloth is used as a curtain material to complete electromagnetic shielding construction of the door and window.

Example 2, selection of overlap area.

General principles: the basic principle is to reduce the overlap as much as possible. Therefore, in theory, geometric calculation should be performed according to the room configuration before construction, and the scheme with the shortest lap joint length is selected as the construction scheme.

General principle: generally, the boundary area between the wall surface and the top surface and the boundary area between the wall surface and the ground are defined as the overlapping area of the electromagnetic shielding layer, and the electromagnetic shielding layer base material with the corresponding specification is selected according to the above principle.

Example 3 treatment of the overlap area.

The conductivity of the lap joint zone is the key of the whole construction process, and therefore the following optimization process is initially developed:

the following pre-lap operation is performed before the formal lap joint: before lapping, firstly, the electric brush is used for cleaning the surfaces of two groups of actual lapping surfaces of the conductive lapping area in a sweeping mode, the electric brush is made by additionally arranging a plastic brush head on the existing electric toothbrush, and the electric toothbrush is made by adopting an electric toothbrush with pressure detection, so that the pressure when the two groups of actual lapping surfaces of the conductive lapping area are swept is lower than the pressure alarm value; spraying aqueous dispersion liquid containing carbon particles to the two groups of actual lapping surfaces after cleaning so as to form a layer of water mist on the surfaces of the actual lapping surfaces; and immediately pressing the two groups of actual lapping surfaces together after the pre-lapping is finished, and finishing lapping.

The above description is only presented as an enabling solution for the present invention and should not be taken as a sole limitation on the solution itself.

Claims (10)

1. A construction method for electromagnetic radiation safety protection of home decoration is characterized by comprising the following steps: the method comprises the following steps:

A. treating a base layer of the wall surface and the top surface: cleaning the surfaces of the wall surface and the top surface base layer until no obvious floating dust exists, and then leveling cracks, depressions and bulges which can be seen by naked eyes;

B. constructing electromagnetic shielding layers on the wall surface and the top surface: bonding the electromagnetic shielding layer on the leveling layer through an environment-friendly adhesive;

the electromagnetic shielding layer takes flexible stretch-resistant cloth as a base material, composite conductive microparticles are sprayed on one side surface or two side surfaces of a cloth base material main body to form a conductive particle layer, or a metal conductive wire mesh is woven by attaching the cloth base material main body; spraying composite conductive micro-particles on the two sides of the peripheral edge of the cloth substrate within the range of 1-10cm to form a conductive overlapping area of the electromagnetic shielding layer, and overlapping adjacent electromagnetic shielding layers through the conductive overlapping area;

the following pre-lap operation is performed before the formal lap joint: before lapping, firstly, cleaning the surfaces of two groups of actual lapping surfaces of a conductive lapping area by using an electric brush in a sweeping mode, and spraying aqueous dispersion liquid containing carbon particles to the two groups of actual lapping surfaces after cleaning so as to form a layer of water mist on the surfaces of the actual lapping surfaces; after the pre-lapping is finished, pressing the two groups of actual lapping surfaces together to finish lapping;

C. constructing the decorative surface layer of the wall surface and the top surface: after the electromagnetic shielding layer is constructed, constructing a decorative surface layer of the wall surface and the top surface, wherein the decorative surface layer comprises a decorative paint layer, a decorative wall paper layer, a decorative plaster layer and a decorative diatomite layer; the construction is carried out by adopting the conventional home decoration process;

D. ground base layer treatment: cleaning the surface of the ground base layer until no obvious floating dust exists, and then leveling cracks, depressions and bulges which can be seen by naked eyes;

E. construction of a ground electromagnetic shielding layer: after ground leveling, directly bonding the electromagnetic shielding layer on the leveling layer through the environment-friendly adhesive under the working condition of floor tile construction; for the working condition of floor construction, the electromagnetic shielding layer is bonded by the environment-friendly adhesive after the construction of the moisture-proof layer is finished;

the electromagnetic shielding layer takes flexible stretch-resistant cloth as a base material, composite conductive microparticles are sprayed on one side surface or two side surfaces of a cloth base material main body to form a conductive particle layer, or a metal conductive wire mesh is woven by attaching the cloth base material main body; spraying composite conductive micro-particles on the two sides of the peripheral edge of the cloth substrate within the range of 1-10cm to form a conductive overlapping area of the electromagnetic shielding layer, and overlapping adjacent electromagnetic shielding layers through the conductive overlapping area;

the following pre-lap operation is performed before the formal lap joint: before lapping, firstly, cleaning the surfaces of two groups of actual lapping surfaces of a conductive lapping area by using an electric brush in a sweeping mode, and spraying aqueous dispersion liquid containing carbon particles to the two groups of actual lapping surfaces after cleaning so as to form a layer of water mist on the surfaces of the actual lapping surfaces; after the pre-lapping is finished, pressing the two groups of actual lapping surfaces together to finish lapping;

F. construction of a ground surface layer: after the electromagnetic shielding layer is constructed, constructing a ground surface layer, wherein the ground surface layer comprises a polished floor brick layer, a glazed floor brick layer, a matte floor brick layer, a natural stone floor brick layer, a stone-like floor brick layer, a pure wood floor layer and a composite wood floor layer; the construction is carried out by adopting the conventional home decoration process.

2. The construction method for the electromagnetic radiation safety protection of home furnishings according to claim 1, characterized in that: in step B, E, before construction, geometric calculation is performed according to the room configuration, and the scheme with the shortest lap length is selected as the construction scheme.

3. The construction method for the electromagnetic radiation safety protection of home furnishings according to claim 1, characterized in that: in step B, E, the boundary area between the wall and the ceiling and the boundary area between the wall and the ground are defined as the overlapping area of the electromagnetic shielding layer.

4. The construction method for the electromagnetic radiation safety protection of home furnishings according to claim 1, characterized in that: in step B, E, the environment-friendly adhesive is white latex or glutinous rice glue.

5. The construction method for the electromagnetic radiation safety protection of home furnishings according to claim 1, characterized in that: in step B, E, the flexible stretch-resistant fabric is a pure cotton fabric, a chemical fiber fabric or a blended fabric.

6. The construction method for the electromagnetic radiation safety protection of home furnishings according to claim 1, characterized in that: in step B, E, the composite conductive microparticles include composite metal particles and/or carbon-based conductive particles and/or nanocrystalline conductive particles.

7. The construction method for the electromagnetic radiation safety protection of home furnishings according to claim 1, characterized in that: in step B, E, the electric brush is made by adding plastic brush head to the existing electric toothbrush; the electric toothbrush adopts an electric toothbrush with pressure detection, so that the pressure when two groups of actual lap joint surfaces of the conductive lap joint area are brushed is lower than the pressure alarm value.

8. The construction method for the electromagnetic radiation safety protection of home furnishings according to claim 1, characterized in that: the following post-treatment steps are also included after step F:

G. door and window construction: the transparent electromagnetic shielding film layer is attached to the surface of the door and window, and electromagnetic shielding cloth is used as a curtain material to complete electromagnetic shielding construction of the door and window.

9. A construction method for electromagnetic radiation safety protection of home decoration is characterized by comprising the following steps: the method comprises the following steps:

A. ground base layer treatment: cleaning the surface of the ground base layer until no obvious floating dust exists, and then leveling cracks, depressions and bulges which can be seen by naked eyes;

B. construction of a ground electromagnetic shielding layer: after ground leveling, directly bonding the electromagnetic shielding layer on the leveling layer through the environment-friendly adhesive under the working condition of floor tile construction; for the working condition of floor construction, the electromagnetic shielding layer is bonded by the environment-friendly adhesive after the construction of the moisture-proof layer is finished;

the electromagnetic shielding layer takes flexible stretch-resistant cloth as a base material, composite conductive microparticles are sprayed on one side surface or two side surfaces of a cloth base material main body to form a conductive particle layer, or a metal conductive wire mesh is woven by attaching the cloth base material main body; spraying composite conductive micro-particles on the two sides of the peripheral edge of the cloth substrate within the range of 1-10cm to form a conductive overlapping area of the electromagnetic shielding layer, and overlapping adjacent electromagnetic shielding layers through the conductive overlapping area;

the following pre-lap operation is performed before the formal lap joint: before lapping, firstly, cleaning the surfaces of two groups of actual lapping surfaces of a conductive lapping area by using an electric brush in a sweeping mode, and spraying aqueous dispersion liquid containing carbon particles to the two groups of actual lapping surfaces after cleaning so as to form a layer of water mist on the surfaces of the actual lapping surfaces; after the pre-lapping is finished, pressing the two groups of actual lapping surfaces together to finish lapping;

C. construction of a ground surface layer: after the electromagnetic shielding layer is constructed, constructing a ground surface layer, wherein the ground surface layer comprises a polished floor brick layer, a glazed floor brick layer, a matte floor brick layer, a natural stone floor brick layer, a stone-like floor brick layer, a pure wood floor layer and a composite wood floor layer; the construction is carried out by adopting the conventional home decoration process;

D. treating a base layer of the wall surface and the top surface: cleaning the surfaces of the wall surface and the top surface base layer until no obvious floating dust exists, and then leveling cracks, depressions and bulges which can be seen by naked eyes;

E. constructing electromagnetic shielding layers on the wall surface and the top surface: bonding the electromagnetic shielding layer on the leveling layer through an environment-friendly adhesive;

the electromagnetic shielding layer takes flexible stretch-resistant cloth as a base material, composite conductive microparticles are sprayed on one side surface or two side surfaces of a cloth base material main body to form a conductive particle layer, or a metal conductive wire mesh is woven by attaching the cloth base material main body; spraying composite conductive micro-particles on the two sides of the peripheral edge of the cloth substrate within the range of 1-10cm to form a conductive overlapping area of the electromagnetic shielding layer, and overlapping adjacent electromagnetic shielding layers through the conductive overlapping area;

the following pre-lap operation is performed before the formal lap joint: before lapping, firstly, cleaning the surfaces of two groups of actual lapping surfaces of a conductive lapping area by using an electric brush in a sweeping mode, and spraying aqueous dispersion liquid containing carbon particles to the two groups of actual lapping surfaces after cleaning so as to form a layer of water mist on the surfaces of the actual lapping surfaces; after the pre-lapping is finished, pressing the two groups of actual lapping surfaces together to finish lapping;

F. constructing the decorative surface layer of the wall surface and the top surface: after the electromagnetic shielding layer is constructed, constructing a decorative surface layer of the wall surface and the top surface, wherein the decorative surface layer comprises a decorative paint layer, a decorative wall paper layer, a decorative plaster layer and a decorative diatomite layer; the construction is carried out by adopting the conventional home decoration process.

10. The construction method for the electromagnetic radiation safety protection of home furnishings according to claim 9, characterized in that: before, during or after the steps A-F, the following processing steps are also included: door and window construction: the transparent electromagnetic shielding film layer is attached to the surface of the door and window, and electromagnetic shielding cloth is used as a curtain material to complete electromagnetic shielding construction of the door and window.