JP3688266B2 - Building with antenna - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a building with an antenna in which an antenna that can be used to receive a radio wave from an object existing in the building and detect a trend of the object, for example, more specifically, a wall surface of the building, Alternatively, the present invention relates to a building with an antenna in which an antenna is provided on the indoor side surface of the slab surface so as to be able to communicate with the indoor side.
[0002]
[Prior art]
Conventionally, as a building with an antenna of this type, there is one in which a plurality of antennas are provided in a frame portion of an entrance / exit to a room of a building (see, for example, Patent Document 1), and a person who enters the room by the antenna It was configured to detect the trend of the person by communicating with the tag that was worn.
[0003]
[Patent Document 1]
Japanese Patent Laid-Open No. 2001-74855 (FIG. 2)
[0004]
[Problems to be solved by the invention]
According to the conventional antenna-equipped building described above, since the installation position of the antenna is limited to the entrance to the room, it can be detected that the tag has approached the entrance, but has entered the room, or It was difficult to specify whether the person left without entering, and in order to detect it, it was necessary to install expensive equipment such as a sensor and a video camera other than the antenna. That is, according to the conventional building with an antenna, it is necessary to use equipment other than the antenna in combination. In addition to the increase in equipment cost, there is a problem that the equipment is exposed to the room and the aesthetics are easily lost.
In order to solve such problems, it may be possible to install many antennas around the room, but in this case, it is necessary to process information from many antennas. There is a problem that the processing itself becomes complicated.
In addition, when the indoor environment of a building is changed (for example, indoor refurbishment, addition or removal of partitions), a new antenna is attached or the existing antenna is rearranged according to the change. It has been necessary to carry out a time-consuming work such as removing or removing it, which is not practical.
[0005]
Therefore, the object of the present invention is to solve the above-mentioned problems, hardly impair the aesthetics of the room, and to minimize the processing of received information at the antenna, and against changes in the indoor environment. It is a place that provides buildings with antennas that are easy to follow.
[0006]
[Means for Solving the Problems]
According to a first aspect of the present invention, in the building with an antenna in which the antenna is provided on the wall surface of the building or the indoor side surface of the slab surface so as to be able to communicate with the indoor side, the antenna has a planar communication surface. The planar communication surface is configured to be divided into a plurality of pieces in the in-plane direction, and the divided communication surfaces can be switched between a conductive state and a non-conductive state between adjacent divided communication surfaces. a conductive switching means is provided, along with its conductive switching means are constituted by switching the division communications surfaces adjacent to each other with the manipulating removed from the divided communication surface adjacent the conductive state to a non-conductive state removed part, room It is in the place arranged according to the partition part .
[0007]
According to the characteristic configuration of the invention of claim 1, the antenna has a planar communication surface, and the planar communication surface is configured to be divided into a plurality of pieces in the in-plane direction, and between the adjacent divided communication surfaces. In between, there is a conductive switching means that can switch between the divided communication surfaces between the conductive state and the non-conductive state, so it can be placed along the planar communication surface on the wall or slab surface, It is possible to install the antenna in a state where no protrusion that gives a sense of incongruity occurs. Therefore, it is difficult to impair the aesthetics of the room.
In addition, since the planar communication surfaces are connected by the conductive switching means, the antenna is divided and configured for each planar communication surface according to the purpose of communication by switching the conductive state of each conductive switching means. It becomes possible.
In other words, it is possible to switch the usage to cover the room to be installed with a single antenna and the usage to divide into a plurality of antennas appropriately by the conductive switching means, and an appropriate number according to the purpose of use. An antenna can be configured. To explain with specific examples, when detailed information such as in which part of the room the communication target exists is necessary, the antenna is divided finely by the conductive switching means while communicating with the room. If it is only necessary to detect the presence or absence of communication objects in the network, it is possible to integrate and communicate as one large antenna by the conduction switching means, and process the minimum necessary reception information With this configuration, efficient information processing can be achieved.
Furthermore, when changing the indoor environment such as indoor refurbishment or installing / removing partitions, the antenna can be divided in units of each divided communication surface. The area of the communication surface can be changed quickly and easily without the trouble of attaching, rearranging the antennas already installed, or removing them. Can be improved.
And, when the change in the room environment is a change of the partition, the antenna corresponding to each room can be simply configured by simply switching the conductive switching means arranged in the partition part according to the increase of the room. Is possible. In addition, the change of a partition includes the case where a partition is added sequentially during the construction construction of a building other than what accompanies the renovation performed after completion of a building, for example.
[0008]
According to a second aspect of the present invention, the antenna is composed of a paint mixed with a conductive material.
[0009]
According to the characteristic configuration of the invention of claim 2, in addition to being able to achieve the function and effect of the invention of claim 1, it is possible to easily construct an antenna integrated with a building by applying the paint. Thus, the efficiency of antenna installation work can be improved. In addition, the setting of the installation range can be performed simply by selecting the coating application range.
Furthermore, the paint itself can also be used as an interior decoration material, and the cost of antenna installation work can be reduced.
[0010]
The characteristic configuration of the invention of claim 3 is that the antenna is formed of a sheet printed with a conductive material.
[0011]
According to the characteristic configuration of the invention of claim 3, in addition to being able to achieve the function and effect of the invention of claim 1, it is possible to form an antenna with a simple effort of simply attaching the sheet to the building. Thus, it is possible to improve the efficiency of the antenna installation work, and it is possible to install the antenna in an appropriate state even if it is not a skilled person by simplifying the installation work.
Further, by adopting a method of printing a conductive material, it is possible to maintain the quality of the conductive performance as an antenna with little variation.
[0014]
The characteristic configuration of the invention of claim 4 is that a decorative material is laid on the side of the indoor side of the antenna.
[0015]
According to the characteristic configuration of the invention of claim 4, in addition to being able to achieve the operational effects of any one of claims 1 to 3, it is possible to prevent the antenna from being exposed by the decorative material. Therefore, it is possible to prevent deterioration of the antenna while improving the design of the room with the decorative material.
That is, it is possible to achieve both improvement in the aesthetics of the room and maintenance of the antenna performance.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
[0017]
1 and 2 show one embodiment of a building with an antenna according to the present invention. The drawing shows a state in the middle of construction of a building B. As the process proceeds, FIG. From FIG. 2B, a partition is added.
[0018]
An antenna 1 is provided on the indoor side surface (lower surface) of a ceiling slab surface (an example of a slab surface) F of the building B so as to be able to communicate with the indoor side.
Although this antenna 1 can be used for various uses, the example used for the site construction management accompanying construction of the said building B is given and demonstrated here.
[0019]
As shown in FIG. 4, this on-site construction management is performed by a on-site construction management system (hereinafter simply referred to as a system) S, a plurality of antennas 1 installed separately at a plurality of locations in a building facility, and a construction site. Records information on ID tags 2 attached to the object V such as a person V1 and objects (materials V2a and construction tools V2b) V2 and the ID tags 2 received by the antenna 1 and performs various analyses. And a displayable main computer 3 are provided. Note that the antenna 1 and the main computer 3 are communicatively coupled to each other regardless of wired or wireless.
[0020]
The ID tag 2 has a dedicated object depending on the object V to be attached, and includes a person ID tag 2A for attaching to the person V1 and an object ID tag 2B for attaching to the object V2. The object ID tag 2B is subdivided into a material ID tag 2Ba for attaching to the material V2a and a construction tool ID tag 2Bb for attaching to the construction tool V2b.
Each ID tag 2 is attached to the target object V when entering the construction site. Specifically, for example, when the target person V1 receives on-site entrance education, the person ID tag 2A can be attached to a place where communication is easy, such as a helmet or work clothes. Is considered to be attached with a double-sided adhesive tape or the like when the object V2 is brought into the field.
The ID tag 2 is configured to send back only by communication from the antenna.
The information recorded in each ID tag 2 is also stored in advance in the database of the main computer 3 so that the tag can be specified by collating with information from the corresponding tag.
[0021]
As shown in FIG. 4, the main computer 3 includes a control unit 3A that performs various controls, an information recording unit 3B that includes various types of information that can be freely read and written, and information that is connected to the antenna 1 and the communication network W so as to be capable of information communication. A communication unit 3C, a display 3D, and an input unit 3E are provided.
The main computer 3 has a database D mainly composed of the control unit 3A and the information recording unit 3B, and the contents of the database D are stored in the antenna via the information communication unit 3C. 1 is updated to the latest state by communication with 1 or communication with a different computer.
[0022]
The control unit 3A performs general control for reading / writing information communicated via the information communication unit 3C with the information recording unit 3B and displaying the information on the display 3D. The trend detection control unit 5 can detect the trend of the ID tag 2 based on the information recorded in the database D, the data recorded in the database D, and the trend detection control. Based on the data detected by the unit 5, a management information provision control unit 6 that can provide management information N necessary for on-site construction management is provided.
Incidentally, for example, as shown in FIG. 5, the management information N is a time chart in which the ID tags 2 existing in the information detection area 1A of the antenna 1 are arranged in time series from the information detection history of the predetermined antenna 1. For example, a time chart N2 in which the existing positions of N1 or predetermined ID tags 2 are arranged in time series from the information detection history of each antenna 1 can be exemplified. Of course, these may be displayed as a list.
[0023]
As shown in FIG. 4, the database D is configured to be recordable in association with the ID code from the ID tag 2 received by the antenna 1 and the time information T at the time of reception. In addition to these pieces of information, the database D also records information related to general site construction management. For example, various information such as location information of the installation location of the antenna 1, construction information executed at the installation location, construction-related person list information, information corresponding to the material V2a and construction tool V2b handled for each person V1 There is something. For example, when an information display request for a specific ID tag 2 is received, detailed information linked to the corresponding ID tag 2 in the database D can be displayed on the display 3D.
[0024]
As shown in FIG. 3, the antenna 1 is configured as an integrated conductor by applying a paint 10 mixed with a conductive material on the lower surface of the ceiling slab surface F. A planar communication surface M is configured. And the planar communication surface M is comprised in the state which divided | segmented the divided communication surface M1 divided into several over the room zone and the passage zone (refer FIG. 2). Further, between adjacent divided communication surfaces M1, conductive switching means K that can switch between a conductive state and a non-conductive state is provided. As shown in FIG. 4, the divided portions of the divided communication surfaces M <b> 1 are arranged according to the partition portion 11.
Therefore, the antenna 1 functions as a single antenna in the building B by making all the divided communication surfaces M1 conductive by the conductive switching means K. In addition, by setting any conductive switching means K to a non-conductive state, the antennas 1 on both sides thereof can be made to function as separate antennas. In addition, about antenna incidental facilities, such as a lead wire and the controller 1B, you may install beforehand for every division | segmentation communication surface M1, and may be installed in the case of antenna division.
In the present embodiment, the antenna 1 is configured with a passage antenna 1a that is located in the passage portion B1 and configured by a single divided communication surface M1, and a single divided communication surface M1 that is positioned for each room B2. And a plurality of room antennas 1b.
[0025]
An example of antenna switching by the conduction switching means K is, for example, as shown in the plan view of FIG.
The switching state in FIG. 2 (a) is a state in which all antennas 1a and 1b are in a conductive state to form a single antenna 1, and whether or not the object V is located in the building B. It is adopted for the purpose of detecting only. In this state, it is possible to detect information indicating which ID tag 2 is present in the building B.
2B shows a configuration in which the antennas 1a and 1b are separated into minimum units so that each antenna 1a and 1b functions separately, and which ID tag 2 is the target object V located in the building B. It is adopted when detecting whether it is present or where the ID tag 2 is located in the building B.
[0026]
In addition, as long as the said conduction | electrical_connection switching means K is the structure which switches the conduction | electrical_connection between adjacent divisional communication surfaces M1, in this embodiment, as shown in FIG. A release sheet 13 is attached in advance to the base 12 to be coated, and the paint 10 is applied in a conductive state from above. In this initial state, the antennas 1 on both sides of the release sheet 13 (corresponding to the removal portion) are in a conductive state, and can be switched to a non-conductive state by peeling the release sheet 13.
[0027]
Next, an example of trend management of the object V by the construction management system S will be described. It is assumed that the object V is previously attached with an ID tag 2 and that each antenna 1 is switched to a state in which information can be individually detected by the conductive switching means K, and the partition section The following description will be made assuming that 11 is installed.
[0028]
[1] As shown in FIGS. 2 and 4, when a person V1, a material V2a, or a construction tool V2b enters the building B, each ID tag 2 is detected by the passage antenna 1a installed in the passage B1, The detection information (detected ID code) 7 is combined with time information T indicating the detected time and transmitted from the antenna 1a to the main computer 3. In the main computer 3, the detection information 7 and the time information T are recorded together with the antenna information (antenna code) 8 of the antenna 1a that has detected the information.
[0029]
[2] As the object V entering the building B moves from the passage portion B1 to the room B2, each ID tag 2 is detected by the room antenna 1b installed in the corresponding room B2, and the above description The detection information 7, time information T, and antenna information 8 are recorded in the main computer 3 by a similar process.
[0030]
[3] When the object V further advances and moves into another room B2, the antenna for detecting the corresponding ID tag 2 is changed from 1b to another 1b.
These pieces of information are recorded in the main computer 3 with the detection information 7, the time information T, and the antenna information 8 by the same process as described above, and the information is shown in a time chart N1 as shown in FIG. , N2, the position of the target object and the movement path can be known at a glance.
Although such information can be displayed in real time, since all information is stored in the database D, the trend of each object V can be examined later.
Incidentally, when the object V is a person V1, it shows a person's movement. Similarly, when the object V is a material V2a, the movement of the material is shown. When the object V is a construction tool V2b, It shows a trend. Therefore, it is possible to estimate the construction status in the corresponding part from these combined statuses.
[0031]
Next, operations using these pieces of information will be described with examples.
[0032]
(Use for quality control)
In construction, for example, the quality of a waterproof base often has a large impact on the quality of the asphalt waterproofing that is applied on it, but after the waterproof layer has been formed on the base, Observing workmanship is difficult. However, by looking at each time schedule as described above, it is possible to know the order in which the trends of people, materials, and construction tools were performed in the construction target part, and what intervals were used. From the result, it is possible to easily determine whether or not the construction conforming to the predetermined construction procedure and the predetermined construction step has been performed.
[0033]
(Use for cost management)
There are cases in which construction tools are lent to laborers to proceed with construction, but the judgment whether the loaned construction tools are being used without waste is based on the human ID tag 2A and the construction tool ID tag 2Bb. It can be implemented by looking at trends. That is, if only the tool exists in the target part, the tool is not used. In this way, it is possible to reduce costs by thoroughly using construction tools without waste.
In addition, when multiple people use one construction tool, by looking at the above time schedule, it is possible to easily carry out the distribution for each person even after the fact, and implement cost management. easy.
[0034]
(Use for process management)
In many cases, it is difficult to determine whether a person is in a construction state or in a standby state from the trend information of a person alone, but by looking at trends in materials and construction tools together Therefore, it is possible to quickly know the work waiting status and take measures. As a result, it is possible to prevent the process from being delayed.
[0035]
(Use for safety management)
It is possible to determine that a person has approached a dangerous area in the construction site from the trend information of the person alone, and safety management that can issue warnings is possible. It is also possible to identify what kind of work has been approached, and according to the result, it is possible to practice the fine-grained safety management that was performed when exceptionally allowing entry into the area Become. In addition, even if an accident occurs, it is possible to determine from what time schedule the accident occurred during the work, which is effective in analyzing the cause of the accident. It can be used to combat eradication.
[0036]
(Use for environmental management)
It is determined that the processing of the remaining material that occurs with the construction is discarded in an appropriate place from the trend information of the object (remaining material). However, if the same type of remaining material is generated from multiple construction sites and is disposed of separately by different personnel, even if one of them disposes inappropriately, the responsibility is clearly located. There are times when I do not. Therefore, in addition to the trend information of goods (remaining materials), as described above, the trend information of people can be obtained, so it is possible to grasp who discarded what and when and where to prevent unauthorized disposal. It becomes possible to do.
[0037]
[Another embodiment]
Other embodiments will be described below.
[0038]
<1> The antenna 1 is not limited to the one described in the previous embodiment. For example, a reply status detection mechanism for detecting a reply time from the ID tag 2 for a communication by the antenna 1 and a strength of a reply radio wave. If the antenna 1 is provided, the relative position between the corresponding antenna 1 and the object V can be obtained more accurately based on the information from the response status detection mechanism. In addition, the specific configuration of the antenna 1 is not limited to that formed by coating the paint 10 mixed with the conductive material described in the previous embodiment. For example, as shown in FIG. It may be composed of the sheet 15 or a metal sheet. In short, any material can be used as long as it functions as an antenna, and various materials at a known technical level can be adopted. These examples are collectively referred to as an antenna. In addition, as described in the previous embodiment, the application of the paint is not limited to the application range set over almost the entire surface of the base 12, and for example, a zigzag linear application as shown in FIG. It may be formed in a range .
<2> The ID tag 2 is not limited to the one configured to receive and return the communication from the antenna as described in the previous embodiment. For example, the ID tag 2 is configured to transmit itself. There may be. Therefore, a battery built-in type may be used. Further, by providing the ID tag with a memory, it can be configured as a read / write type instead of the read only type. In this case, information on the corresponding antenna with which communication was performed, time information at the time of communication, and the like are stored in the memory, and the information is transmitted to the nearest antenna 1 with a plurality of information accumulated. It is also possible to record in the database of the main computer 3.
Including such things, they are collectively referred to as ID tags.
<3> The use of the antenna 1 is not limited to the on-site construction management described in the previous embodiment. For example, it can be used to manage a specific object V located in a building such as a warehouse or a library, and can also be used as an antenna or indoor wiring used for television, radio, or information communication. (See FIG. 8).
The antenna 1 is not limited to the ceiling slab surface as described in the previous embodiment. For example, the antenna 1 is a floor slab surface F or a wall surface H as shown in FIGS. May be.
Further, as shown in FIGS. 8 to 10, if a decorative material 14 such as wallpaper, a floor board, or a ceiling board is laid on the indoor side surface of the antenna 1, it can function without deteriorating the aesthetics of the room. It becomes possible.
[0039]
In addition, as mentioned above, although the code | symbol was written in order to make contrast with drawing convenient, this invention is not limited to the structure of an accompanying drawing by this entry.
[Brief description of the drawings]
FIG. 1 is a partially cutaway perspective view showing a main part of a building with an antenna. FIG. 2 is a plan view of a building with an antenna. FIG. 3 is a main part perspective view showing a conduction switching means. FIG. 5 is an explanatory diagram showing management information. FIG. 6 is a perspective view showing a main part of an antenna according to another embodiment. FIG. 7 is a plan view showing an antenna installation state according to another embodiment. FIG. 9 is a main part explanatory view showing the antenna use of another embodiment. FIG. 10 is a main part explanatory view showing the antenna use of another embodiment.
DESCRIPTION OF SYMBOLS 1 Antenna 10 Paint 11 mixed with conductive material Partition part 14 Cosmetic material 15 Sheet B printed with conductive material Building F Ceiling slab surface (an example of slab surface)
H Wall surface K Conductive switching means M Planar communication surface M1 Split communication surface

Claims (4)

On the wall of the building, or on the indoor side of the slab surface, the building is equipped with an antenna provided with an antenna so that it can communicate with the indoor side,
The antenna has a planar communication surface, and the planar communication surface is configured to be divided into a plurality of directions in the in-plane direction, and the divided communication surfaces are electrically connected between adjacent divided communication surfaces. A conductive switching means that can be switched between a state and a non-conductive state is provided, and the conductive switching means removes switching between adjacent divided communication surfaces from a conductive state to a non-conductive state as an operation is performed to remove the adjacent divided communication surfaces. A building with an antenna that is arranged in accordance with a room partition .   The building with an antenna according to claim 1, wherein the antenna is made of a paint mixed with a conductive material. The building with an antenna according to claim 1, wherein the antenna is configured by a sheet printed with a conductive material . The building with an antenna according to any one of claims 1 to 3, wherein a decorative material is laid on an indoor side surface side of the antenna.

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