JP2002167884A - Radio absorptive precast concrete plate and ferrite fixing member - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a radio absorptive PC(precast concrete) plate and its manufacturing method for the impendence matching and dielectric property stabilization of a sash-bar-type radio absorptive material. SOLUTION: The radio absorptive PC plate 1 comprises sash-bar-type radio absorptive materials 2 including a ferrite magnetic material 7 spaced by ferrite anchoring materials 10 at regular intervals, and at least a radio wave reflector arranged together, extrusion molded plates 3 forming the surface 4 of the radio absorptive PC plate 1 having joining parts, and a concrete structure 5 constituting the wash-bar-type radio absorptive materials 2 and the extrusion molded plates 3 together, wherein the radio absorbing performance for electromagnetic wave of broad band width is stabilized and the PC plate is structurally lightened.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a radio wave absorbing precast concrete plate which more reliably achieves electromagnetic wave absorption by using a cross-shaped wave absorber in order to prevent reflection obstruction due to electromagnetic waves such as television waves, and its manufacture. It is about the method.

[0002]

2. Description of the Related Art When a situation is established in which a building blocks an electromagnetic wave flying around the building, the electromagnetic wave reflects on the building and generates secondary noise around the building, thereby causing a new electromagnetic wave disturbance. .

At present, television waves exist as electromagnetic waves constantly flying around buildings, and VHF, UH
Use frequency of both TV radio waves of F is 90-770MHz
Form a wide frequency band. When a high-rise building is constructed, the television wave reflected on the building has an effect over a long distance, and has caused radio interference such as ghosts in a wide area.

For this reason, with respect to the reflection obstacle and the shielding obstacle of the television wave, countermeasures against the trouble of the television wave have been studied in high-rise buildings.

[0005] Among the obstacles of TV radio waves, the reflection obstacle is an area affected by a long distance and a wide area.
Conventionally, various measures have been taken.

As a countermeasure for absorbing radio waves without reflecting them, in consideration of industrialization of construction, an exterior material made of precast concrete (hereinafter abbreviated as “PC”) into which ferrite tiles are driven is used. A number of methods have been adopted for adopting a wall surface to provide a building with electromagnetic wave absorbing performance.

The present inventors have already proposed a radio wave absorbing PC board and a method for manufacturing the same that can cope with the above. (Japanese Patent Application 20
The present proposal is shown in FIG. 9 as an embodiment of the invention, and a radio wave absorbing PC board 40 includes a cross-shaped radio wave absorber 41 arranged at a predetermined interval in a vertical direction, and a radio wave absorbing PC board 40. The extruded plate 42 forming the surface of the absorbent PC plate 40 and the extruded plate 42 are integrally embedded in the concrete structure portion 44 except for the front surface 43 of the extruded plate 42. And
In the concrete structure portion 44, reinforcing steel 4
5 are arranged.

The cross-shaped electromagnetic wave absorber 41 includes a cross-shaped ferrite magnetic body 46, a reflective reinforcing bar 47 and a cross-shaped ferrite magnetic body 46.
And the reflection reinforcing bar 47, and the space between the bar-shaped ferrite magnetic bodies 46 is maintained by sandwiching a gap member 49 made of, for example, keikalite.

[0009]

The above-mentioned radio wave absorbing PC board efficiently absorbs electromagnetic waves to prevent radio interference due to the reflection of the building, but cannot expose the surface of the cross-shaped radio wave absorber. An object different from air, such as a synthetic resin, concrete, and kakerite, is present on the surface of the cross-shaped ferrite magnetic material and its gaps.

As a result, it becomes difficult to adjust the impedance, the radio wave absorber cannot secure the radio wave absorption performance at the time of the design, and a problem arises in that the electromagnetic environment on the outer wall of the building cannot be established in a desired state. The solution is required.

Although the quality of the electromagnetic wave absorbing PC board has been assured and its productivity has been improved, much attention must be paid to ensure the placement accuracy and rigidity of the cross-shaped ferrite magnetic material. Therefore, further improvement in cost reduction and shortening of construction period is expected.

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and aims at solving the problem. At the same time, the equidistant installation of the cross-shaped ferrite magnetic material can be easily performed by using a separately manufactured ferrite fixing material. When the extruded plate is placed in front of the ferrite magnetic body, the concrete interposed between the ferrite magnetic body and the radio wave reflector is used as an impedance matching layer, so that The impedance matching as a body is achieved, and the characteristics of the ferrite fixing material are stabilized by reducing the influence of moisture etc. on the ferrite fixing material during manufacturing. We provide a radio wave absorbing PC board with improved simplicity, a method of manufacturing the same, and a ferrite fixing material.

[0013]

The radio wave absorbing PC board according to the first aspect of the present invention is configured by arranging a cross-shaped ferrite magnetic body and at least a radio wave reflector arranged at equal intervals by a ferrite fixing material. An extruded plate provided with a connecting portion between a cross-shaped radio wave absorber and a concrete structure portion arranged in front of the cross-shaped radio wave absorber and forming the surface of the radio wave absorbing PC board, and a cross-shaped radio wave absorber and extruded plate The structure is composed of a concrete structure that is integrated with the structure.The aim is to improve the positioning accuracy and construction efficiency of the bar-shaped ferrite magnetic material while stabilizing the electromagnetic wave absorption performance for broadband electromagnetic waves and reducing the weight of the structure. I have.

A radio wave absorbing PC according to the second aspect of the present invention.
The plate is characterized in that, in the radio wave absorbing PC board according to claim 1, the radio wave reflector is formed of a reflective reinforcing bar, and concrete is interposed behind the back of the bar-shaped ferrite magnetic material, and the above function is achieved. In addition, the use of concrete as an impedance matching layer facilitates impedance matching of the cross-shaped radio wave absorber.

A radio wave absorbing PC according to the third aspect of the present invention.
The board is characterized in that, in the radio wave absorbing PC board according to claim 2, the cross-shaped ferrite magnetic material is waterproofed, and in addition to the above functions, the characteristics of the ferrite fixing material provided between the cross-shaped ferrite magnetic materials are provided. Stabilizes the radio wave absorption performance.

The radio wave absorbing PC according to the fourth aspect of the present invention.
The plate is a radio wave absorbing PC board according to claim 1, wherein the radio wave reflector of the bar-shaped radio wave absorber is formed of a conductive plate and is joined to the back surface of the bar-shaped ferrite magnetic material. In addition to the above functions, a simple radio wave absorbing PC board is formed.

A radio wave absorbing PC according to the fifth aspect of the present invention.
The plate is characterized in that, in the radio wave absorbing PC board according to claim 4, the cross-shaped radio wave absorber is subjected to waterproof treatment, and in addition to the above functions, the characteristics of the ferrite fixing material provided between the cross-shaped ferrite magnetic bodies are provided. Stabilizes the radio wave absorption performance.

A radio wave absorbing PC according to the invention of claim 6.
The plate is a radio wave absorbing PC according to any one of claims 1 to 3.
In the plate, the longitudinal direction of the bar-shaped ferrite magnetic material arranged at equal intervals to constitute the bar-shaped electromagnetic wave absorber is arranged so as to be substantially parallel to the magnetic field direction of the target radio wave, and the extruded plate, the bar-shaped It features impedance matching with the ferrite magnetic material and the concrete interposed between the back surface of the bar-shaped ferrite magnetic material and the reflective rebar, and in addition to the above functions, sets the radio wave absorption performance for broadband electromagnetic waves Is easy.

A radio wave absorbing PC according to the invention of claim 7
A method for manufacturing a board, comprising: an extruded plate for forming a surface of a radio-absorbing precast concrete board having a joint with a concrete structure in order to manufacture the radio-wave absorbing PC board according to any one of claims 1 to 6. Are prepared in advance, and the extruded plate is placed in the formwork with the joint with the concrete structure part on the upper side, and then the bar-shaped ferrite magnetic material is arranged on the extruded plate at equal intervals by a ferrite fixing material. And at least the radio wave reflector are arranged in a positional relationship to form a cross-shaped radio wave absorber, and then concrete is cast in the formwork, thereby making the arrangement of the cross-shaped ferrite magnetic material highly accurate and easy. This facilitates the manufacture of the radio wave absorbing PC board.

A radio wave absorbing PC according to the invention of claim 8
The manufacturing method of the plate is the method of manufacturing a radio wave absorbing PC board according to claim 7, wherein a positional relationship for forming the cross-shaped electromagnetic wave absorber is determined by configuring the radio wave reflector with a reflective reinforcing bar and a back surface of the cross-shaped ferrite magnetic material. It is characterized by providing a space behind it, and in addition to the above functions, concrete cast between the ferrite magnetic body and the reflective reinforcing bar is used as an impedance matching layer, so that This facilitates impedance matching of the absorber.

A radio wave absorbing PC according to the ninth aspect of the present invention.
A method of manufacturing a board according to claim 8, wherein the ferrite magnetic body is waterproofed in the method of manufacturing a radio wave absorbing PC board according to claim 8. The stability of the radio wave absorption performance has been established by eliminating the influence on the ferrite fixing material provided between the type ferrite magnetic materials.

The radio wave absorption P according to the tenth aspect of the present invention.
The manufacturing method of the C plate is the method of manufacturing a radio wave absorbing PC plate according to claim 7, wherein the radio wave reflector is formed of a conductive plate to form the cross-shaped electromagnetic wave absorber, and is provided on the back surface of the cross-shaped ferrite magnetic material. It is characterized in that it is joined and configured, and in addition to the above functions, the manufacture of the radio wave absorbing PC board is simplified.

The radio wave absorption P according to the eleventh aspect of the present invention.
The method for producing a C plate is the method for producing a radio wave absorbing PC plate according to claim 7. The method for producing a radio wave absorbing PC plate according to claim 11 is the method for producing a radio wave absorbing PC plate according to claim 10. The method of manufacturing, characterized in that the cross-shaped radio wave absorber is subjected to waterproof treatment, in addition to the above function, eliminating the influence on the ferrite fixing material provided between the cross-shaped ferrite magnetic material when placing concrete The stability of radio wave absorption performance has been established.

The ferrite fixing material according to the twelfth aspect of the present invention is used for the radio wave absorbing PC board according to any one of the first to sixth aspects, and maintains an interval capable of disposing the ferrite magnetic material on the bottom plate. A rectangular projection of the cavity is formed, and a rectangular projection of the cavity adjusted to a predetermined width is formed at both ends, and the arrangement interval of the crosspiece ferrite magnetic material is set with high precision.

The ferrite fixing material according to the thirteenth aspect of the present invention is used for the radio wave absorbing PC board according to any one of the first to sixth aspects, while maintaining an interval capable of disposing the ferrite magnetic material on the bottom plate. It is characterized by forming hollow rectangular protrusions and forming raised portions of the bottom plate at both ends, and the arrangement interval of the bar-shaped ferrite magnetic material is set with high precision.

The ferrite fixing material according to the fourteenth aspect of the present invention is used for the radio wave absorbing PC board according to any one of the first to sixth aspects, and maintains an interval capable of disposing the ferrite magnetic material on the bottom plate. It is characterized by forming a rectangular projection of a cavity and integrally forming the tips of the rectangular projections.
The spacing between the cross-shaped ferrite magnetic bodies is set with high precision and strength.

According to a fifteenth aspect of the present invention, the ferrite fixing material is used for an adjoining portion of the radio wave absorbing PC plate according to any one of the first to sixth aspects, and a central portion of the bottom plate is upwardly spaced at a predetermined interval. The center is formed with a hollow rectangular protrusion that is shortened by the upper position, and the bottom plate is formed with raised portions at both ends.
The spacing between the bar-shaped ferrite magnetic bodies at the joint of the plates is set with high precision.

[0028]

BEST MODE FOR CARRYING OUT THE INVENTION A radio wave absorbing PC board according to the present invention
Basically, a cross-shaped ferrite magnetic body arranged at equal intervals by a ferrite fixing material and at least a cross-shaped radio wave absorber constituted by arranging a radio wave reflector, and a radio wave absorber arranged in front of the cross-shaped radio wave absorber An extruded plate having a joint with a concrete structure forming the surface of a PC board, and a concrete structure which integrally forms the cross-shaped radio wave absorber and the extruded plate, the cross-shaped ferrite magnetic material In addition to ensuring the installation of the antenna, the stability of the radio wave absorption performance for broadband electromagnetic waves and the weight of the structure have been reduced.

Hereinafter, various embodiments of the radio wave absorbing PC board according to the present invention will be described with reference to the drawings.

FIG. 1 is a perspective view of a radio wave absorbing PC board according to the present invention in which a radio wave reflector is constituted by a reflective reinforcing bar.

In the present embodiment, the target radio wave is a TV radio wave. Therefore, the radio wave absorbing PC board 1 is composed of a cross-shaped radio wave absorber 2 and a radio wave absorbing PC board 1 arranged at predetermined intervals in the vertical direction. The extruded plate 3 forming the surface of the extruded plate 3 is integrally embedded in the concrete structure 5 except for the front surface 4 of the extruded plate 3. It should be noted that reinforcing steel bars 6 are arranged in the concrete structure 5 as necessary.

FIG. 2 is a sectional view, FIG. 2 (a) is a plan sectional view, and FIG. 2 (b) is an elevational sectional view partially and alternately showing a cross-shaped ferrite magnetic material and a ferrite fixing material. is there.

As shown in the figure, the cross-shaped electromagnetic wave absorber 2 includes a cross-shaped ferrite magnetic body 7, a reflective reinforcing bar 8, and a concrete 9 placed between the cross-shaped ferrite magnetic body 7 and the reflecting reinforcing bar 8.
, And the gap between the cross-shaped ferrite magnetic bodies 7 is firmly held by placing the hollow rectangular projections between ferrite fixing materials formed at equal intervals.

However, the electromagnetic wave absorption characteristics of the electromagnetic wave absorbing PC board 1 form a multilayer electromagnetic wave absorber as shown in FIG. 3 by the presence of the extruded plate 3 and the concrete 9 constituting the impedance matching layer.

According to this, the cross-shaped electromagnetic wave absorber 11 shown in a simplified manner is composed of an impedance matching layer 12 corresponding to concrete 9, an outer surface layer 13 corresponding to the extruded plate 3, and a ferrite magnetic material corresponding to the cross-shaped ferrite magnetic material 7. It is composed of the body 14 and a reflector of a metal plate.

The part of the ferrite fixing member located between the extruded plate 3 and the cross-shaped ferrite magnetic material 7 affects the impedance characteristics. In comparison with this, the state becomes extremely thin and can be ignored by taking the extruded plate 3 into consideration.

Since the cross-shaped radio wave absorber 11 is configured as described above, the input impedance of the equivalent line with respect to the vertical incidence of the short circuit at the terminal that affects the radio wave absorption performance is expressed by the following equation (1). Is done.

[0038]

(Equation 1)

The above equation is the propagation constant gamma _n of each layer medium n, defines a characteristic impedance Z _0n and the thickness d _n, are calculated impedance Z _n of normal incidence for each layer.

Therefore, by these calculations, the reflection coefficient R of the radio wave absorber is calculated by the following equation.
In each layer of the medium constant (mu _n and epsilon _n) and setting the thickness d _n, it is possible to obtain the frequency characteristics of the reflection coefficients.

R = (Z ₁ −Z ₀ ) / (Z ₁ + Z ₀ ) As described above, in the radio wave absorbing PC board 1 according to the present invention, the cross-shaped radio wave absorber 2 is reflected by the cross-shaped ferrite magnetic body 7. Reinforcing bar 8
And, it is composed of concrete 9 cast between the bar-shaped ferrite magnetic body 7 and the reflective reinforcing bar 8. As for the radio wave absorption performance, the thickness of the concrete 9 is adjusted in consideration of the extruded plate 3. Can finally be set.

Therefore, in the radio wave absorbing PC board 1 according to the present invention, since the impedance matching can be easily adjusted by forming the impedance matching layer, the configuration of each part is simplified.

That is, the extruded molded plate 3 may be formed of a molded plate such as a spun cleat or an asrock having a front surface 4 constituting the outer surface of the radio wave absorbing PC plate 1 and a back surface 15 joined to the cross-shaped electromagnetic wave absorber 2. In the vicinity of both ends on the back surface 15 side, the extruded plate 3 and the beam-shaped radio wave absorber 2 are formed by integrally molding the inset feet 16, 16 which are joints with the concrete structure. The concrete structure 5 can be integrally connected.

It is desirable that the cross-shaped ferrite magnetic body 7 constituting the cross-shaped radio wave absorber 2 has a gap between each other in terms of function, but the conventional cross-shaped radio wave absorber has a structure. Since a gap material such as keikalite was interposed between the surfaces, it was difficult to secure the radio wave absorption characteristics.

However, according to the present invention, the installation of the bar-shaped ferrite magnetic bodies 7 is performed by the ferrite fixing material 10 so that the arrangement of the bar-shaped ferrite magnetic bodies 7 is strengthened and the mutual positional relationship is accurately maintained. Also, in terms of its function, by forming a gap between them in an air gap state, it is easy to ensure radio wave absorption characteristics and improve accuracy.

The ferrite fixing material 10 which achieves these is provided.
7 and 8, a hollow rectangular projection is formed on a bottom plate made of a thin plastic material or the like. Can be easily installed in a high-precision positional relationship only by arranging the bar-shaped ferrite magnetic body 7 in the gap between the rectangular protrusions, and at the same time, by the cavity of the rectangular protrusion arranged between the bar-shaped ferrite magnetic bodies 7, Voids can be formed between the bar-shaped ferrite magnetic bodies 7.

The bar-shaped ferrite magnetic bodies 7 are arranged in parallel in a vertical direction at predetermined intervals by a ferrite fixing material 10, and are subjected to a waterproofing treatment 17 by being entirely wrapped in vinyl or the like.

[0048] These waterproofing treatments are performed using the ferrite fixing material 1
Since 0 is composed of a plastic material or the like, it is for avoiding destabilizing its characteristics by absorbing water from concrete or the like.

Compared with the conventional state in which the gap material of the bar-shaped ferrite magnetic material is made of, for example, kicalite, in the case of the present invention, although the material is plastic, it is structurally thin. Although this arrangement does not have any substantial effect on the radio wave absorption characteristics, it is a measure for removing the concern when the ferrite fixing material 10 absorbs moisture.

The cross-shaped radio wave absorber 2 is disposed between the recessed feet 16 on the back surface 15 side of the extruded plate 3 and at the same time, between the adjacent extruded plates 3 joined by the joint material 18. Are arranged in the same manner, and it is considered that the radio waves which are not absorbed by the entire arrangement are not generated.

As described above, the radio wave absorbing PC board in which the radio wave reflector described in the present embodiment is composed of a reflective reinforcing bar is made of a ferrite magnetic body having a waterproof structure, and a concrete is provided behind the back of the ferrite magnetic body. , So that the horizontal and vertical polarized electromagnetic waves, such as television waves, can be absorbed and attenuated over a wide band while reducing the amount of ferrite magnetic material used. The characteristics of the ferrite fixing material to be provided are stabilized, and the impedance matching of the cross-shaped wave absorber is facilitated by using concrete as the impedance matching layer.

Next, another embodiment of the radio wave absorbing PC board according to the present invention, which is constituted by joining the radio wave reflector as a conductive plate to the back surface of a cross-shaped ferrite magnetic body, will be described with reference to FIG.

FIG. 4 (a) is a plan view, and FIG. 4 (b) is a vertical sectional view showing a cross-shaped ferrite magnetic material and a ferrite fixing material alternately.

The present embodiment differs from the above-described embodiment only in the shape of the cross-shaped radio wave absorber, and a description of similar parts will be omitted.

As shown in the figure, the radio wave absorbing PC board 20 is formed in a simple form composed of the extruded plate 3, the cross-shaped radio wave absorber 21 and the concrete structure 5 to reduce the weight.

The cross-shaped electromagnetic wave absorber 21 is composed of a cross-shaped ferrite magnetic body 22 and a conductive plate 23. The cross-section of the cross-shaped ferrite magnetic body 22 is a ferrite fixing member having rectangular hollow protrusions formed at equal intervals. By being placed between the members 10, it is firmly held.

The cross-shaped electromagnetic wave absorber 21 is provided only on the back surface 15 side of the extruded plate 3 after the waterproof treatment 17 is performed so that the ferrite fixing material 10 does not absorb water and destabilize the characteristics. It is arranged between the foot portions 16 and 16 and between the adjacent extruded plates 3 so that reflected radio waves are not generated.

The cross-shaped radio wave absorber 21 is arranged so that the direction of the electric field of the radio wave incident to absorb the radio wave is perpendicular to the longitudinal direction of the cross-shaped ferrite magnetic body 22. Since the ferrite magnetic body is arranged so as to coincide with the longitudinal direction of the ferrite magnetic body, in the present embodiment, it is arranged in the vertical direction as shown in the figure in order to cope with the horizontal polarization of the television wave.

However, when coping with all the radio waves, it is necessary to add a cross-shaped ferrite magnetic body intersecting with this and arrange it in a lattice shape.

The basic structure of the cross-shaped radio wave absorber 21 is the same as that of a broadband ferrite radio wave absorber (see Japanese Patent Application Laid-Open No. 4-42999) by forming a transmission line model to reduce the input impedance and the characteristic impedance of the transmission line to an equivalent circuit. The desired relationship is established between the input impedance of the crosspiece ferrite magnetic body 22, the wavelength λ of the used frequency of the target radio wave, and the characteristic impedance,
A state of zero reflection is formed.

That is, the input impedance of the bar-shaped ferrite magnetic body 22 is adjusted by changing the material of the ferrite magnetic body, such as the magnetic permeability and dielectric constant, the shape regulated by the thickness, height, and length, and the arrangement interval. And the wavelength λ of the target radio wave
In contrast, the thickness t, height h, and length L of the ferrite magnetic material
The mutual relationship is selected as follows.

First, since the thickness t of the ferrite magnetic body has a function of focusing the magnetic field, if the ferrite magnetic body is continuous with the length L in the direction of the magnetic field component of the operating radio wave, the thickness t of the direction of the electric field is Since the gap is of little concern, the thickness t is such that the magnetic field absorption characteristics are not deteriorated.
Is based on

When the height h is changed while keeping the thickness t and the gap s of the ferrite magnetic material constant, the characteristics in the high frequency range are sacrificed at a predetermined value at the expense of the characteristics in the low frequency range. Since the characteristics can be improved, the characteristics can be adjusted in accordance with the target frequency range within the range of the ferrite magnetic material length L specifying the rectangular parallelepiped.

Since it is known that the gap s has an optimum value at the value of t / s, it is effective to adjust the gap s within the range of the wavelength λ of the incident radio wave which affects the gap s. .

In consideration of the above conditions, the shape and arrangement of the crosspiece-shaped ferrite magnetic body 22 are generally L ≧ h ≧ t, λ
It is configured such that ≧ s ≧ t, and by adjusting these, the radio waves incident in a wide frequency band are absorbed, and the reflected radio waves are attenuated to a predetermined level or less.

As described above, the radio wave absorbing PC plate in which the radio wave reflector described in the present embodiment is formed of a conductive plate can satisfy the above-mentioned conditions while further increasing the space between the bar-shaped ferrite magnetic bodies by the rectangular protrusion. The cross section of the wave absorber, including the ferrite fixing material formed at equal intervals in the section, is entirely waterproofed, so it absorbs and attenuates horizontally and vertically polarized electromagnetic waves such as television waves over a wide band. At the same time, the gap of the ferrite fixing material provided between the cross-shaped ferrite magnetic materials stabilizes the radio wave absorption characteristics, eliminates the use of reflective reinforcing bars, improves the manufacturing cost, and reduces the overall weight for easy handling. I have to.

FIG. 5 is a cross-sectional view in which a ferrite fixing material formed sandwiching a cross-shaped ferrite magnetic body is formed in a waterproof state, and FIG. 5A is a cross-sectional view of a cross-shaped radio wave absorber constituted by a reflective reinforcing bar. Ferrite magnetic body, FIG. 5 (b) shows a cross-shaped electromagnetic wave absorber composed of a cross-shaped ferrite magnetic body and a reflector.

As shown in FIG. 5 (a), the bar-shaped ferrite magnetic body 7, which constitutes the bar-shaped electromagnetic wave absorber with the reflection reinforcing bar indicated by the dashed line, is on the bottom plate of the ferrite fixing material 10. Are fitted between rectangular projections of cavities formed at predetermined intervals, and are firmly held while ensuring the positional relationship with high accuracy.

As a result, the crosspiece-shaped ferrite magnetic body 7 and the ferrite fixing material 10 are individually subjected to the waterproofing treatment 17 with vinyl or the like, and the waterproofness is perfect.

On the other hand, the cross-shaped electromagnetic wave absorber 21 shown in FIG. 5 (b) has a cross-shaped ferrite magnetic body 22 formed of a hollow rectangular protrusion formed at a predetermined interval on the bottom plate of the ferrite fixing material 10. The reflector 23 is fitted on the open upper surface of the crosspiece-shaped ferrite magnetic body 7 and the rectangular projection to be integrally formed.

Accordingly, the cross-shaped ferrite magnetic body 22, the reflection plate 23 and the ferrite fixing material 10 are formed by the cross-shaped electromagnetic wave absorber 2
1, the waterproofing treatment 17 is entirely performed by vinyl or the like, and is firmly held while ensuring the positional relationship with high precision, as in the above embodiment, and the waterproofness is perfect.

Next, a method for manufacturing a radio wave absorbing PC board according to the present invention will be described. The method for manufacturing a radio wave absorbing PC board according to the present invention includes the steps of: preparing an extruded plate for forming a surface of the radio wave absorbing PC board having a joint with a concrete structure in advance; A position in which a cross-shaped ferrite magnetic body and at least a radio wave reflector arranged at equal intervals by a ferrite fixing material on an extruded plate and a radio wave reflector are formed, with the joining portion being on an upper side, and formed in a mold. The concrete structure is formed by placing concrete in the relationship and then pouring concrete into the formwork.
By making it easier, the electromagnetic wave absorption performance and the quality of the electromagnetic wave absorbing PC board are ensured and the productivity is improved.

Hereinafter, an embodiment of a method of manufacturing a radio wave absorbing PC board according to the present invention will be described with reference to the drawings.

In the method for manufacturing a radio wave absorbing PC board according to the present invention, a predetermined number of extruded plates 3 forming the surface 4 of the radio wave absorbing PC board having a joint with the concrete structure 5 are manufactured in advance. It is composed by putting.

Since the extruded plate 3 manufactured in advance has the foot 16 formed only as a joint, the strength of the extruded plate 3 can be ensured, and warpage deformation during drying can be reliably prevented. By manufacturing, the molded plate that is in a hydrated state at the time of manufacturing is dried to improve and stabilize the radio wave absorption performance.

FIG. 6 shows a process of manufacturing a radio wave absorbing PC board according to the present invention. The radio wave absorbing PC board according to the present invention is manufactured by assembling a predetermined number of extruded boards 3,... Into predetermined dimensions as shown in FIG. , Start by setting.

Each extruded plate 3 is arranged on a mold 25 with the front surface 4 forming the surface of the radio wave absorbing PC plate 1 facing downward. Since joints are formed, joint materials 1 such as caulking materials
8 are arranged.

Next, although it is not clear in the figure, as shown in FIG. 2, the bar-shaped ferrite magnetic material 7 and the gap material 10 are arranged at equal intervals by the ferrite fixing material constituting the bar-shaped electromagnetic wave absorber 2. In the state where the waterproofing treatment 17 has been integrally performed on the back surface 15 of the extruded plate 3,
6 and 16 and between the adjacent extruded plates 3. At the same time, the reflective reinforcing bars 8, 8 are arranged at predetermined positions above the cross-shaped ferrite magnetic body 7 at predetermined intervals.

The subsequent steps are shown in FIG. In the above-described process, after the extruded plate 3, the cross-shaped ferrite magnetic bodies 7 and the reflection reinforcing bars 8 arranged at equal intervals by the ferrite fixing material 10 constituting the cross-shaped radio wave absorber 2, are arranged at predetermined positions. As shown in the figure, appropriate reinforcing reinforcing bars 6 are arranged as necessary.

The concrete 26 is poured into the formwork 25 to a predetermined level after the reinforcing reinforcing bars 6 are laid, and the concrete 26 placed functionally constitutes two side surfaces.

One is that the concrete 9 functions as an impedance matching layer, and the other is that the radio wave absorbing PC board 1 is formed integrally with the reinforcing steel bar 6 to form the concrete structure 5. It constitutes.

For this reason, the gap held between the bar-shaped ferrite magnetic body 7 and the reflective reinforcing bar 8 that regulates the thickness of the concrete 9 to be cast is determined in the design stage of the radio wave absorbing PC board 1. It needs to be accurately controlled even at the manufacturing stage.

After the cast concrete 26 has hardened and developed a predetermined strength, the radio wave absorbing PC board 1 is released from the mold frame 25. 1 Install and keep it as it is to prevent water from entering into it.

By the above-described steps, the cross-shaped electromagnetic wave absorbers 2, 2,... Including the portion of the concrete 9 whose surface is formed by the front surfaces 4, 4,. The radio wave absorbing PC board 1 built in the unit 5 is manufactured.

As the concrete 26, various kinds of concrete such as ordinary concrete, lightweight concrete and fiber reinforced concrete can be used.

As described above, the radio wave absorbing PC according to the present invention
The manufacturing method of the board is that an extruded board provided with a recessed foot portion only as a joint with the concrete structure part was previously manufactured and placed, and then equidistantly arranged on the extruded board by a waterproofed ferrite fixing material. By arranging a ridge-shaped electromagnetic wave absorber composed of a ridge-shaped ferrite magnetic material, etc., the characteristics of the ridge-shaped ferrite magnetic material to be arranged while maintaining the air gap and the ferrite fixing material provided between them are stabilized, and the use of the ferrite magnetic material Reduce the volume and improve the manufacturing cost,
By reducing the overall weight, handling is simplified and productivity is improved.

Further, the mortar and the concrete are not hit twice as in the prior art, so that the efficiency of construction can be improved even when the concrete is poured.

Next, the ferrite fixing material will be described. The ferrite fixing material according to the present invention forms a rectangular projection of a cavity at an interval capable of disposing a ferrite magnetic material on a bottom plate, and forms a rectangular projection of a cavity adjusted to a predetermined width at both ends, It is characterized by forming the raised part of the bottom plate and further combining the tips of the rectangular projections integrally. By making the body gap a void, the radio wave absorption performance is stabilized.

An embodiment of a ferrite fixing material according to the present invention will be described below with reference to the drawings.

FIG. 7 (a) is a perspective view showing an embodiment of the ferrite fixing member disposed between the swallowing feet on both sides of the extruded plate.

The ferrite fixing member 30 is provided with a rectangular projection 33 having the same height as the ferrite magnetic material while maintaining a space 32 where the ferrite magnetic material is placed on the upper surface of the bottom plate 31.
Is formed, and the rectangular projection 33 has its interior 34 formed in a hollow state.

The ferrite fixing material 30 is, as described above,
Inset feet 16, 1 provided on both sides of the extruded plate 3
6 are formed in a width that can be arranged between them. For this,
In the present embodiment, the rectangular projections 35 for supporting the bar-shaped ferrite magnetic body are formed at both ends, but the width of the rectangular projection 35 is determined in relation to the width of the ferrite fixing material 30. It has been set to shortened dimensions.

FIG. 7B is a perspective view showing another embodiment of the ferrite fixing material similarly arranged between the swallowing feet on both sides of the extruded plate.

In the ferrite fixing member 30 ', a rectangular projection 33 is formed on the upper surface of the bottom plate 31 at intervals 32 where the ferrite magnetic material is installed, similarly to the above-described embodiment. The inside is formed in a hollow state.

In the present embodiment, the extruded plate 3 is formed to have a width arranged between the swallowing feet 16, 16.
The raised portions 36 of the bottom slab 31 are formed at both ends thereof, and are configured so as to be able to cope with the case where the spacing between the recessed legs 16 of the extruded plate 3 is different.

FIG. 7 (c) is a perspective view showing another embodiment of the ferrite fixing member similarly disposed between the swallowing feet on both sides of the extruded plate.

In the ferrite fixing member 30 ″, a rectangular projection 33 is formed on the upper surface of the bottom plate 31 at an interval 32 where the ferrite magnetic material is installed, as in the above-described embodiment. Has formed its interior 34 in a hollow state.

In this embodiment, the extruded plate 3 is formed so as to have a width arranged between the recessed legs 16 and 16.
Unlike the above-described embodiment, the strength is enhanced by integrally connecting the tips of the rectangular projections 33.

Further, the ferrite fixing material according to the present invention is applied between adjacent extruded plates, and has a cavity in which the central portion of the bottom plate is located at a predetermined interval above and the central portion is shortened by the upper position. Are formed, and the raised portions of the bottom plate are formed at both ends, and the arrangement interval of the bar-shaped ferrite magnetic material at the joint portion of the radio wave absorbing PC plate is set with high precision.

An embodiment of a ferrite fixing material according to the present invention will be described below with reference to the drawings.

FIG. 8 is a perspective view showing an embodiment of a ferrite fixing member which is located between the adjacent extruded plates and placed between the swallowing feet.

The ferrite fixing member 37 has a rectangular projection in which the central portion of the bottom plate 31 is positioned above at a predetermined interval 38 and the height is reduced by the position above the rectangular projection 33 in the above embodiment. As in the above embodiments, the inside 34 of the rectangular projection 39 is formed in a hollow state, and both ends thereof are formed similarly to the embodiment shown in FIG. The raised portion 36 of the bottom plate is formed.

Also in this embodiment, the ferrite fixing material 37 is used.
The width of the rectangular protruding portion 39 is arbitrarily changed depending on the shape of the extruded plate, the interval between the swallowing feet, and the like.

In any of the above ferrite fixing materials, the material is made of plastic, but there is room for selection according to the characteristics of water absorption and dielectric constant.
By giving priority to ensuring the structural strength, the material is not particularly limited in terms of waterproof treatment, arrangement location, and the like.

Although the present invention has been described in detail with reference to the embodiments, the present invention is not limited to the above-described embodiments, and various modifications may be made without departing from the spirit of the present invention. Of course, it is possible.

[0106]

The radio wave absorption P according to the first aspect of the present invention.
The C-plate is composed of a cross-shaped ferrite magnetic body and at least a radio-wave reflector arranged at regular intervals by a ferrite fixing material, and a cross-shaped radio wave absorber, and a front surface of the radio-wave absorbing PC board arranged on the front surface thereof Consisting of an extruded plate with a joint to the concrete structure to be formed and a concrete structure that integrates the beam-shaped radio wave absorber and the extruded plate, the radio wave absorption performance for broadband electromagnetic waves is stable. This has the effect of reducing the weight of the structure and the structure.

The radio wave absorbing PC according to the second aspect of the present invention.
The plate is characterized in that, in the radio wave absorbing PC board according to claim 1, the radio wave reflector is formed of a reflective reinforcing bar and concrete is interposed behind the back of the bar-shaped ferrite magnetic body, so that the above effect is obtained. In addition to this, the use of concrete as an impedance matching layer has an effect of facilitating impedance matching of the cross-shaped wave absorber.

A radio wave absorbing PC according to the third aspect of the present invention.
The board is characterized in that, in the radio wave absorbing PC board according to claim 2, the bar-shaped ferrite magnetic body is subjected to a waterproof treatment. Has the effect of stabilizing the radio wave absorption and establishing the radio wave absorption performance.

The radio wave absorbing PC according to the fourth aspect of the present invention.
The plate is characterized in that, in the radio wave absorbing PC board according to claim 1, the radio wave reflector of the bar-shaped radio wave absorber is formed of a conductive plate and is joined to the back surface of the bar-shaped ferrite magnetic material. In addition to the above effects, the present invention has the effect of forming a simple radio wave absorbing PC board.

A radio wave absorbing PC according to the fifth aspect of the present invention.
Since the board is characterized in that the crosspiece-shaped radio wave absorber is waterproofed in the radio wave absorbing PC board according to claim 4,
In addition to the above effects, the present invention has the effect of stabilizing the characteristics of the ferrite fixing material provided between the cross-shaped ferrite magnetic bodies and establishing radio wave absorption performance.

The radio wave absorbing PC according to the invention of claim 6
The plate is a radio wave absorbing PC according to any one of claims 1 to 3.
In the plate, the longitudinal direction of the bar-shaped ferrite magnetic material arranged at equal intervals to constitute the bar-shaped electromagnetic wave absorber is arranged so as to be substantially parallel to the magnetic field direction of the target radio wave, and the extruded plate, the bar-shaped In addition to the above-mentioned effects, the use of the ferrite magnetic material is characterized by impedance matching with the ferrite magnetic material and the concrete interposed between the back surface of the ferrite magnetic material and the reflective rebar. While reducing the amount, it absorbs and attenuates horizontally polarized or vertically polarized electromagnetic waves such as television waves over a wide band, and has the effect of facilitating impedance matching of the cross-shaped wave absorber.

A radio wave absorbing PC according to claim 7
A method for manufacturing a board, comprising: an extruded plate for forming a surface of a radio-absorbing precast concrete board having a joint with a concrete structure in order to manufacture the radio-wave absorbing PC board according to any one of claims 1 to 6. Are prepared in advance, and the extruded plate is placed in the formwork with the joint with the concrete structure part on the upper side, and then the bar-shaped ferrite magnetic material is arranged on the extruded plate at equal intervals by a ferrite fixing material. And at least the radio wave reflector are arranged in a positional relationship to form a cross-shaped radio wave absorber, and then concrete is poured into the formwork, so that the cross-shaped ferrite magnetic material can be arranged with high precision and easily. This has the effect of ensuring the radio wave absorption performance and quality of the radio wave absorbing PC board and improving the productivity.

A radio wave absorbing PC according to the invention of claim 8
The manufacturing method of the plate is the method of manufacturing a radio wave absorbing PC board according to claim 7, wherein a positional relationship for forming the cross-shaped electromagnetic wave absorber is determined by configuring the radio wave reflector with a reflective reinforcing bar and a back surface of the cross-shaped ferrite magnetic material. Since it is characterized by providing a space behind, in addition to the above-mentioned effects, the concrete cast between the ferrite magnetic body and the reflective reinforcing bar is utilized as an impedance matching layer, so that the This has the effect of facilitating impedance matching of the radio wave absorber.

The radio wave absorbing PC according to the ninth aspect of the present invention.
The method for producing a board is characterized in that, in the method for producing a radio wave absorbing PC board according to claim 8, the cross-shaped ferrite magnetic material is subjected to waterproof treatment. This has the effect of eliminating the influence on the ferrite fixing material provided between the cross-shaped ferrite magnetic bodies and establishing the stability of the radio wave absorption performance.

The radio wave absorption P according to the tenth aspect of the present invention.
The manufacturing method of the C plate is the method of manufacturing a radio wave absorbing PC plate according to claim 7, wherein the radio wave reflector is formed of a conductive plate to form the cross-shaped electromagnetic wave absorber, and is provided on the back surface of the cross-shaped ferrite magnetic material. Since it is characterized by being formed by joining, in addition to the above-mentioned effects, it has the effect of simplifying the manufacture of the radio wave absorbing PC board and facilitating its handling.

The radio wave absorption P according to the eleventh aspect of the present invention.
The method for manufacturing a C-plate is characterized in that, in the method for manufacturing a radio-wave absorbing PC board according to claim 10, the cross-shaped radio wave absorber is subjected to a waterproof treatment. In addition, there is an effect of eliminating the influence on the ferrite fixing material provided between the cross-shaped ferrite magnetic bodies and establishing the stability of the radio wave absorption performance.

The ferrite fixing material according to the twelfth aspect of the present invention is used for the radio wave absorbing PC board according to any one of the first to sixth aspects, and maintains an interval at which a ferrite magnetic material can be arranged on a bottom plate. It is characterized by forming a rectangular protrusion of the cavity and forming a rectangular protrusion of the cavity adjusted to a predetermined width at both ends. I have.

The ferrite fixing material according to the thirteenth aspect of the present invention is used for the radio wave absorbing PC board according to any one of the first to sixth aspects, while maintaining an interval capable of disposing the ferrite magnetic material on the bottom plate. Since the rectangular projections of the cavities are formed, and the raised portions of the bottom plate are formed at both ends, the effect of setting the arrangement interval of the cross-shaped ferrite magnetic bodies with high accuracy is achieved.

The ferrite fixing material according to the fourteenth aspect of the present invention is used for the radio wave absorbing PC board according to any one of the first to sixth aspects, while maintaining an interval capable of disposing the ferrite magnetic material on the bottom plate. Since the hollow rectangular projection is formed and the tip of the rectangular projection is integrally formed, the effect of setting the arrangement interval of the bar-shaped ferrite magnetic material with high accuracy and high strength is achieved. I have.

The ferrite fixing material according to the fifteenth aspect of the present invention is used for the joint portion of the electromagnetic wave absorbing PC board according to any one of the first to sixth aspects, and the central portion of the bottom plate is positioned above at a predetermined interval. It is characterized by forming a hollow rectangular protrusion that is shortened by the upper position at the center and forming a raised part of the bottom plate at both ends. This has the effect of setting the arrangement interval of the magnetic bodies with high accuracy.

[Brief description of the drawings]

FIG. 1 is a perspective view showing a radio wave absorbing PC board according to the present invention.

FIG. 2 is a sectional view of an embodiment of a radio wave absorbing PC board according to the present invention.

FIG. 3 is a conceptual diagram of a multilayered electromagnetic wave absorber.

FIG. 4 is a sectional view of another embodiment of a radio wave absorbing PC board according to the present invention.

FIG. 5 is a waterproof treatment diagram of a cross-shaped radio wave absorber or the like held by a ferrite fixing material.

FIG. 6 is an embodiment view showing a method of manufacturing a radio wave absorbing PC board according to the present invention.

FIG. 7 is a perspective view of an embodiment of a ferrite fixing material according to the present invention.

FIG. 8 is a perspective view of another embodiment of the ferrite fixing material according to the present invention.

FIG. 9 is a perspective view showing a conventional radio wave absorbing PC board.

[Explanation of symbols]

Reference Signs List 1 radio wave absorption PC board, 2 bar radio wave absorber, 3 extruded plate, 4 front surface of extruded plate, 5 concrete structure, 6 reinforcing bar, 7 bar ferrite magnetic material, 8 reflective bar, 9 concrete (impedance matching Layer), 10 ferrite fixing material, 11 beam-shaped radio wave absorber, 12 impedance matching layer, 13 outer surface layer, 14 ferrite magnetic material, 15 back surface of extruded plate, 16 sole foot, 17 waterproof treatment, 18
Joint material, 20 radio wave absorbing PC board, 21 beam-shaped radio wave absorber, 22 beam-shaped ferrite magnetic material, 23 conductive plate,
25 Formwork, 25a Formwork bottom, 26 Concrete, 30, 30 ', 37 Ferrite fixing material, 31
Bottom plate, 32 intervals, 33, 35, 39 rectangular projections,
34 inside, 36 rising part, 38 predetermined interval, 40 radio wave absorption PC board, 41 beam-shaped radio wave absorber,
42 extruded plate, 43 front of extruded plate,
44 Concrete structure, 45 Reinforcing bar, 46
Bar-shaped ferrite magnetic material, 47 reflective rebar, 48 concrete (impedance matching layer), 49 gap material,

 ────────────────────────────────────────────────── ─── Continuing on the front page (72) Inventor Makoto Kokubu 1-3-2 Shibaura, Minato-ku, Tokyo Shimizu Corporation (72) Inventor Toshihiro Yamane 1-2-3 Shibaura, Minato-ku, Tokyo Shimizu Construction Co., Ltd. (72) Inventor Masatake Kumo 1-3-2 Shibaura, Minato-ku, Tokyo Shimizu Construction Co., Ltd. (72) Inventor Koji Nagata 1-3-2 Shibaura, Minato-ku, Tokyo Shimizu Corporation F term (reference) 2E001 DA01 DH01 EA01 GA20 GA42 GA77 HA04 HA20 HB01 HB02 2E162 AA01 BA01 BB08 CA00 CA11 CD12 GA01 GB07 5E321 AA44 BB25 BB53 GG05 GG07 GG11 GH07

Claims (15)

[Claims] 1. A cross-shaped radio wave absorber composed of a cross-shaped ferrite magnetic material and at least a radio wave reflector arranged at equal intervals by a ferrite fixing material, and a radio wave arranged in front of the cross-shaped radio wave absorber. An extruded plate provided with a joint with a concrete structure forming a surface of an absorbing precast concrete plate, and a radio wave absorbing precast concrete plate comprising a concrete structure integrally forming the beam-shaped radio wave absorber and the extruded plate. 2. The beam-shaped radio wave absorber according to claim 1, wherein the radio wave reflector is constituted by a reflective reinforcing bar, and concrete is interposed behind the back surface of the beam-shaped ferrite magnetic body. Radio wave absorbing precast concrete plate. 3. The radio wave absorbing precast concrete plate according to claim 2, wherein the crosspiece-shaped ferrite magnetic bodies arranged at equal intervals by a ferrite fixing material are subjected to a waterproof treatment. 4. The cross-shaped radio wave absorber is characterized in that the radio wave reflector is formed of a conductive plate and is joined to the back surface of the cross-shaped ferrite magnetic material arranged at equal intervals by a ferrite fixing material. The radio wave absorbing precast concrete plate according to claim 1. 5. The radio wave absorbing precast concrete plate according to claim 4, wherein the crosspiece-shaped radio wave absorber is waterproofed. 6. A cross-shaped radio wave absorber is arranged so that the length direction of the cross-shaped ferrite magnetic material arranged at equal intervals by a ferrite fixing material is substantially parallel to the magnetic field direction of a target radio wave. The radio wave according to any one of claims 1 to 3, wherein impedance matching is achieved between the cross-shaped ferrite magnetic material and the concrete interposed between the back surface of the cross-shaped ferrite magnetic material and the reflective reinforcing bar. Absorbing precast concrete board. 7. An extruded plate for forming a surface of a radio wave absorbing precast concrete plate provided with a joint with a concrete structure is manufactured in advance, and the extruded plate is joined with the concrete structure at an upper side. Then, on the extruded plate, the bar-shaped ferrite magnetic material and at least the radio wave reflector arranged at equal intervals by a ferrite fixing material are arranged in a positional relationship to form a bar-shaped radio wave absorber. The method for producing a radio wave absorbing precast concrete plate according to any one of claims 1 to 6, wherein concrete is poured into the formwork after that. 8. The positional relationship forming the cross-shaped radio wave absorber is as follows:
The radio wave absorbing precast concrete according to claim 7, wherein the radio wave reflector is made of a reflective reinforcing bar and is provided with a space behind the back of a cross-shaped ferrite magnetic material arranged at equal intervals by a ferrite fixing material. Plate manufacturing method. 9. The method for producing a radio wave absorbing precast concrete plate according to claim 8, wherein the crosspiece-shaped ferrite magnetic bodies arranged at equal intervals by a ferrite fixing material are subjected to a waterproof treatment. 10. The cross-shaped radio wave absorber is characterized in that the radio wave reflector is formed of a conductive plate and is joined to the back surface of the cross-shaped ferrite magnetic material arranged at equal intervals by a ferrite fixing material. The method for manufacturing a radio wave absorbing precast concrete plate according to claim 7. 11. The method for producing a radio wave absorbing precast concrete plate according to claim 10, wherein the crosspiece-shaped radio wave absorber is subjected to a waterproof treatment. 12. A rectangular projection of a cavity is formed on the bottom slab with an interval capable of disposing a ferrite magnetic body, and rectangular projections of a cavity adjusted to a predetermined width are formed at both ends. Item 7. A ferrite fixing material used for a radio wave absorbing precast concrete plate according to any one of Items 1 to 6. 13. The method according to claim 1, wherein a rectangular projection of a cavity is formed on the bottom plate at an interval capable of disposing the ferrite magnetic material, and rising portions of the bottom plate are formed at both ends.
7. A ferrite fixing material used for the radio wave absorbing precast concrete plate according to any one of items 1 to 6. 14. The method according to claim 1, wherein a rectangular projection of the cavity is formed on the bottom plate at an interval capable of disposing the ferrite magnetic material, and the tips of the rectangular projection are integrally formed. 7. A ferrite fixing material used for the radio wave absorbing precast concrete plate according to any one of items 1 to 6. 15. A bottom plate having a central portion located at a predetermined interval above, a rectangular rectangular protrusion shortened by the upper position at the center portion, and a rising portion of the bottom plate formed at both ends. The ferrite fixing material used for the radio wave absorbing precast concrete plate according to any one of claims 1 to 6.