JP2020200696A - Method for constructing structure and closing plug for embedded pipe - Google Patents

Abstract

To provide a method for constructing a structure which can easily expose an open end of an embedded pipe while having good workability.SOLUTION: A method for constructing a structure that exposes an open end of a pipe embedded in a structure material from the structure material includes embedding the pipe by the structure material in a state where a wireless tag is provided in a closing plug closing the open end of the pipe, detecting the wireless tag by a wireless tag reader and thereby detecting a position where the open end of the pipe is embedded in the structure material, and removing the structure material at the position where the open end of the pipe is embedded in the structure material and thereby exposing the open end of the pipe from the structure material.SELECTED DRAWING: Figure 5

Description

The present invention relates to a method of constructing a structure and a closing plug for buried piping.

For example, as a technique for constructing a concrete structure in which an electric conduit is embedded such as a nuclear power plant building, there is a technique disclosed in Patent Document 1 below. In this Patent Document 1, "a conduit cap 10 provided with a bolt 6 is attached in advance to the inside of an inlet portion of a pipe 2 by a screw type. Further, a mold is fitted according to a boundary surface which will eventually become a concrete skeleton surface. The frame 4 and the mounting surface of the bolt 6 of the conduit cap body 13 are brought into close contact with each other. At this time, the bolt 6 penetrates the mold 4 vertically, and the mold is tightened with the nut 7 from the outside of the penetrating bolt 6. The frame 4 is narrowed by the nut 7 and the conduit cap body 13. As a result, the contact surface between the mold 4 and the conduit cap body 13 is more firmly fixed. " Further described, "By firmly adhering the conduit cap 3 and the mold 4 to each other, even if the concrete placing pressure is extremely applied, the inlet portion of the pipe 2 is prevented from being buried inside the concrete skeleton 1. Can be done. "

Japanese Unexamined Patent Publication No. 6-276645

By the way, in the above-mentioned technique, a hole for penetrating a bolt is formed in advance at a predetermined position of the mold, and the hole is provided in the conduit cap screwed inside the inlet portion of the conduit. It is necessary to penetrate the bolt. However, the work of penetrating the bolt through the hole formed in the formwork is a very detailed work, which is a factor of deteriorating workability.

Therefore, an object of the present invention is to provide a construction method of a structure capable of easily exposing the open end of a buried pipe and a closing plug for the buried pipe, while having good workability. ..

In order to solve the above problems, for example, the configuration described in the claims is adopted.
The present application includes a plurality of means for solving the above problems, and one example thereof is a method for constructing a structure in which the open end of a pipe embedded in the structure material is exposed from the structure material. The pipe is embedded with the structure material in a state where the radio tag is provided in the closing plug that closes the opening end of the pipe, and the radio tag is detected by the radio tag reader so that the opening end of the pipe has the structure. By detecting the position embedded in the body material and removing the structure material at the position where the opening end of the pipe is embedded in the structure material, the opening end of the pipe is exposed from the structure material. It is a construction method of the structure.

According to the present invention, it is possible to provide a construction method of a structure capable of easily exposing the open end of a buried pipe and a closing plug for the buried pipe, while having good workability.

It is sectional drawing (the 1) which shows the construction method of the structure of 1st Embodiment. It is sectional drawing (the 2) which shows the construction method of the structure of 1st Embodiment. It is sectional drawing (the 3) which shows the construction method of the structure of 1st Embodiment. It is sectional drawing (the 4) which shows the construction method of the structure of 1st Embodiment. It is sectional drawing (the 5) which shows the construction method of the structure of 1st Embodiment. It is sectional drawing (the 6) which shows the construction method of the structure of 1st Embodiment. It is sectional drawing which shows the characteristic part of the construction method of the structure of 2nd Embodiment. It is a figure which shows the information which the terminal apparatus holds in the construction method of the structure of 2nd Embodiment. This is a display example of three-dimensional CAD data of piping displayed on the display unit of the terminal device in the construction method of the structure of the second embodiment. It is the enlarged sectional view of the feature part in the construction method of the structure of 3rd Embodiment. It is sectional drawing which shows the characteristic part of the construction method of the structure of 3rd Embodiment. It is the enlarged sectional view of the feature part in the construction method of the structure of 4th Embodiment. It is the enlarged sectional view of the feature part in the construction method of the structure of 5th Embodiment.

Hereinafter, a method of constructing a structure to which the present invention is applied and each embodiment of a closing plug for buried piping will be described in detail with reference to the drawings. Each embodiment described here has a configuration in which the present invention is applied to the construction of a concrete structure in which pipes for wiring electric wires and the like are embedded, for example, in a nuclear power plant building. In each embodiment, common components are designated by a common reference numeral, and duplicate description of the common components will be omitted.

<< First Embodiment >>
1 to 6 are cross-sectional process views (No. 1) to (No. 6) showing a construction method of the structure of the first embodiment. Next, the construction method of the structure of the first embodiment will be described based on these figures.

First, as shown in FIG. 1, a reinforcing bar assembly 1 is formed by assembling the reinforcing bars 1a vertically and horizontally.

After that, as shown in FIG. 2, the pipe 2 is arranged based on the design between the reinforcing bars 1a constituting the reinforcing bar assembly 1, and is tied and fixed to the reinforcing bar assembly 1. This pipe 2 is, for example, an electric wire pipe in which an electric wire is wired inside. Such a pipe 2 is arranged based on a design so that the open ends 2a on both sides are exposed at predetermined positions on the surface of the concrete structure after completion.

In the drawing, only one opening end 2a of the pipe 2 is shown, but the opening ends 2a on both sides of the pipe 2 are arranged at their respective positions according to the design. Further, the surface of the concrete structure in which the opening end 2a of the pipe 2 is arranged may be any of a wall surface, a floor surface, a top surface, and other surfaces.

In the pipe 2 as described above, the opening end 2a is closed by the closing plug 3 for the purpose of preventing the inflow of concrete into the inside. As shown in the enlarged view of the [A] portion, the closing plug 3 closes the opening end 2a while being housed in the opening end 2a of the pipe 2, and is pushed against the opening end 2a of the pipe 2. It may be screwed in. Such a closing plug 3 is provided in a state of closing the opening end 2a of the pipe 2 before or after fixing the pipe 2 to the reinforcing bar assembly 1.

Further, it is assumed that the outer surface 3a of such a closing plug 3 and the surface exposed from the pipe 2 is a flat surface, and the wireless tag 4 is provided on the flat outer surface 3a. The wireless tag 4 is preferably a passive type having no power source, and transmits a signal using an electromagnetic wave from the outside as a power source. Such a wireless tag 4 may be, for example, an HF band having a communication range of about several tens of centimeters, and is attached to the outer surface 3a of the blocking plug 3.

Next, as shown in FIG. 3, the reinforcing bar assembly 1 and the pipe 2 are sandwiched between, for example, two formwork 5. It is assumed that the two molds 5 are arranged at a predetermined interval according to the design, and are held at a predetermined interval by a separator (not shown here). Further, the mold 5 is arranged so as to face the opening end 2a of the pipe 2 closed by the closing plug 3.

Here, the open end 2a of the pipe 2 is closed by the closing plug 3, and the wireless tag 4 is attached to the outside of the closing plug 3. Therefore, as shown in the drawing, if the mold 5 is in close contact with the wireless tag 4 or the wireless tag 4 does not protrude from the opening end 2a of the pipe 2, the mold 5 is a pipe. It is assumed that it is in close contact with the opening end 2a of 2. Further, due to a construction error with respect to the design, the mold 5 may be arranged with a gap between the wireless tag 4 and the open end 2a of the pipe 2 without being in close contact with each other.

In the configuration in which the reinforcing bar assembly 1 and the pipe 2 are sandwiched between the two formwork 5 as described above, the formwork 5 is arranged so as to face the opening end 2a of the pipe 2. For example, the formation is not limited to the above-mentioned procedure.

After that, as shown in FIG. 4, concrete 6 is placed as a structural material between the two formwork 5 in a state where the reinforcing bar assembly 1 and the pipe 2 are embedded. At this time, due to the placing pressure of the concrete 6, lateral pressure swelling outward is applied to the two formwork 5, but the two formwork 5 is held at a predetermined interval by the separator. However, depending on the positional relationship between the opening end 2a of the pipe 2 and the separator, as shown in the figure, the formwork 5 partially bulges outward due to the placing pressure of the concrete 6, and the formwork 5, the wireless tag 4, and the pipe 2 Concrete 6 may flow into the opening end 2a of the concrete 6.

Next, as shown in FIG. 5, after the concrete 6 placed between the formwork 5 is hardened to generate strength, the formwork 5 is removed to expose the surface of the concrete 6. In this state, the wireless tag 4 and the open end 2a of the pipe 2 may be buried in the concrete 6 so that their positions cannot be confirmed from the outside.

In this case, as shown in the figure, the work of detecting the wireless tag 4 is performed using the wireless tag reader 20. Thereby, the buried position of the opening end 2a of the pipe 2 is specified.

Here, the wireless tag reader 20 generates an electromagnetic wave that is a power source for the wireless tag 4, and a signal is transmitted from the passive wireless tag 4 using the electromagnetic wave from the wireless tag reader 20 as a power source. Further, the wireless tag reader 20 has a notification unit that emits light or sound when the wireless tag 4 enters the transmission area.

When the buried position of the opening end 2a of the pipe 2 is specified by using such a wireless tag reader 20, first, the approximate range in which the opening end 2a of the pipe 2 is arranged is specified based on the design drawing. Next, the wireless tag reader 20 is moved along the surface of the concrete 6 with respect to the approximate range in which the opening end 2a specified from the design drawing is arranged. At this time, the arrangement position of the wireless tag 4, that is, the embedded position of the closing plug 3 to which the wireless tag 4 is attached and the opening end 2a of the pipe 2 are specified by the light or sound emitted from the wireless tag reader 20. For example, if the wireless tag reader 20 is closer to the wireless tag 4 and the light or sound emitted from the wireless tag reader 20 becomes louder, the position where the light or sound emitted from the wireless tag reader 20 becomes loudest is determined. , The position where the wireless tag 4 is arranged may be specified as the embedded position of the open end 2a of the pipe 2.

Next, as shown in FIG. 6, the concrete 6 portion at the buried position of the opening end 2a of the specified pipe 2 is suspended, and the wireless tag 4, the closing plug 3, and the concrete 6 in which the opening end 2a of the pipe 2 is buried are placed. Partially remove. As a result, the closed plug 3 to which the wireless tag 4 is attached and the open end 2a of the pipe 2 closed by the closed plug 3 are exposed from the concrete 6. Then, the closing plug 3 to which the wireless tag 4 is attached is removed from the opening end 2a of the pipe 2 to obtain a concrete structure 10 in which the pipe 2 is embedded in the concrete 6 in a predetermined state.

According to the first embodiment described above, even when the open end 2a of the pipe 2 closed by the closing plug 3 is buried in the concrete 6 and cannot be seen, the wireless tag 4 attached to the closing plug 3 By communicating with the wireless tag reader 20, the buried position of the opening end 2a of the pipe 2 blocked by the blocking plug 3 can be specified. Therefore, for example, the positional accuracy between the formwork 5 provided when placing the concrete 6 and the opening end 2a of the pipe 2 is not questioned, and the open end of the buried pipe 2 is improved while the workability is good. It is possible to easily expose 2a.

<< Second Embodiment >>
FIG. 7 is a cross-sectional process diagram showing a characteristic portion of the construction method of the structure of the second embodiment, and is a step of detecting the wireless tag 4 by the wireless tag reader 20 described with reference to FIG. 5 in the first embodiment. It is a figure which shows the corresponding process. As shown in this figure, the wireless tag reader 20 may be connected to the terminal device 30. It is assumed that the terminal device 30 includes a display unit 31. Further, the connection between the wireless tag reader 20 and the terminal device 30 may be a wired connection or a wireless connection.

In this case, it is assumed that the wireless tag 4 holds the attribute information of the pipe 2 and the opening end 2a to which the blocking plug 3 to which each wireless tag 4 is attached closes. The attribute information of the pipe 2 and the opening end 2a is identification information (ID information such as a pipe number) given to the pipe 2 and identification information (ID information) given to the opening end 2a, and further, the pipe. The drawing number relating to 2 and the size information (caliber) of the opening end 2a in which the closing plug 3 to which the wireless tag 4 is attached closes.

The wireless tag reader 20 reads the attribute information of the pipe 2 and the opening end 2a held by the wireless tag 4.

Further, the terminal device 30 displays the attribute information read by the wireless tag reader 20 on the display unit 31. By displaying the size information (caliber) of the opening end 2a in which the closing plug 3 to which the wireless tag 4 is attached is closed, the terminal device 30 displays the size information (caliber) of the opening end 2a as such attribute information. As shown in the above, when the concrete 6 is hung, it is possible to determine the range of the concrete 6 to be hung.

Further, the terminal device 30 stores information on the three-dimensional CAD data of each pipe 2 and information on the building classification in which the pipe 2 is arranged in a state associated with the identification information given to the pipe 2 and the opening end 2a. It may have been done.

FIG. 8 is a diagram showing information held by the terminal device 30 in the construction method of the structure of the second embodiment. With reference to FIGS. 7 and 8, the terminal device 30 holds identification information (ID information such as pipe number) of each pipe 2 constituting the concrete structure and identification information (ID) of the opening end 2a. Further, the CAD data associated with this identification information and the information regarding the building classification are retained.

In this case, when the wireless tag reader 20 reads the attribute information of the pipe 2 and the opening end 2a from the wireless tag 4, the terminal device 30 reads the CAD data associated with the identification information in the attribute information. It is displayed on the display unit 31. At this time, the terminal device 30 determines the display direction of the CAD data from the identification information of the opening end 2a read by the wireless tag reader 20, and corresponds to the wireless tag 4 whose attribute information is read by the wireless tag reader 20. The three-dimensional CAD data is displayed so that the opening end 2a is in front.

FIG. 9 is a display example of the three-dimensional CAD data of the pipe 2 displayed on the display unit 31 of the terminal device 30 in the construction method of the structure of the second embodiment. With reference to FIGS. 7 and 9, by storing the information related to the 3D CAD data of the pipe 2 in the terminal device 30, the 3D CAD associated with the attribute information related to the pipe 2 read by the wireless tag reader 20 The data can be displayed on the display unit 31. By displaying the three-dimensional CAD data, it is possible to visually confirm the arrangement state of the pipe 2 in the concrete 6 and the position where the opening end 2a is exposed on the surface of the concrete 6.

Further, the terminal device 30 may be configured to display the three-dimensional CAD data of another pipe 2'arranged close to the pipe 2 read by the wireless tag reader 20 on the display unit 31 together. As a result, it is possible to prevent omission of work for exposing the open ends 2a and 2a'of the pipes 2 and 2'embed in the concrete 6.

<< Third Embodiment >>
FIG. 10 is an enlarged cross-sectional view of a feature portion in the construction method of the structure of the third embodiment. As shown in this figure, the obstruction plug 3 that closes the open end 2a of the pipe 2 may be provided with a long-distance wireless tag 4a and a short-distance wireless tag 4b having a shorter communication distance. Both the long-distance wireless tag 4a and the short-distance wireless tag 4b are passive types, and signals are transmitted using electromagnetic waves from the wireless tag reader described in the first embodiment as a power source. It is preferable to have. The difference in communication distance between the long-range wireless tag 4a and the short-range wireless tag 4b depends on the length of the antenna as an example. That is, the antenna of the long-range wireless tag 4a is sufficiently longer than the antenna of the short-range wireless tag 4b.

In this case, the wireless tag reader has a notification unit that emits different lights and sounds by entering each communication range of the long-distance wireless tag 4a and the short-distance wireless tag 4b. Further, when the wireless tag reader is connected to the terminal device as described in the second embodiment, which of the long-distance wireless tag 4a and the short-distance wireless tag 4b is receiving the signal? May be displayed on the display unit of the terminal device.

FIG. 11 is a cross-sectional process diagram showing a characteristic portion of the construction method of the structure of the third embodiment. As shown in this figure, the communication range 100a of the long-distance wireless tag 4a is wider than the communication range 100b of the short-range wireless tag 4b. Therefore, first, the rough position of the opening end 2a of the pipe 2 is specified by detecting the signal from the long-distance wireless tag 4a by the wireless tag reader. Next, the exact position of the opening end 2a of the pipe 2 is specified by detecting the signal from the short-range wireless tag 4b by the wireless tag reader.

As described above, by using the long-distance wireless tag 4a and the short-distance wireless tag 4b having different communication ranges in combination, the buried position of the opening end 2a of the pipe 2 can be specified speedily and accurately.

In the third embodiment, an example in which the long-distance wireless tag 4a and the short-distance wireless tag 4b having different communication distances are provided in the closing plug 3 that closes the opening end 2a of the pipe 2 has been described. However, as a modification of the third embodiment, the closing plug 3 that closes the opening end 2a of the pipe 2 may be provided with only one type of wireless tag, and a wireless tag reader having a variable output may be used. In this case, first, the output of the wireless tag reader is set large to detect the signal from the wireless tag, and the rough position of the opening end 2a of the pipe 2 is specified. Next, the output of the wireless tag reader is reduced to detect the signal from the wireless tag, and the exact position of the opening end 2a of the pipe 2 is specified. As a result, the same effect as that of the third embodiment can be obtained.

<< Fourth Embodiment >>
FIG. 12 is an enlarged cross-sectional view of a feature portion in the construction method of the structure of the fourth embodiment. As shown in this figure, the block plug 3'that closes the open end 2a of the pipe 2 has a configuration in which a recess 3aa for accommodating the wireless tag 4 is provided on the outer surface 3a on which the wireless tag 4 is provided. You may. A plurality of wireless tags as described in the third embodiment may be accommodated in the recess 3aa.

By providing the recess 3aa in the block plug 3'in this way, the wireless tag 4 does not protrude outside the block plug 3', and the entire circumference of the block plug 3'is brought into contact with the mold 5 for close contact. The property can be improved, and the opening end 2a of the pipe 2 and the closing plug 3'are less likely to be buried in the concrete (structure material) to be cast after that. Further, it is possible to reduce the risk that the wireless tag 4 will come off from the closing plug 3 due to the impact at the time of placing concrete.

<< Fifth Embodiment >>
FIG. 13 is an enlarged cross-sectional view of a feature portion in the construction method of the structure of the fifth embodiment. As shown in this figure, the wireless tag 4 may be provided on the inner side surface 3b of the closing plug 3 that closes the opening end 2a of the pipe 2. A plurality of wireless tags as described in the third embodiment may be provided on the inner surface 3b of the blocking plug 3.

As a result, the wireless tag 4 does not protrude to the outside of the closing plug 3, and the contact area between the closing plug 3 and the mold 5 can be widened to improve the adhesion, and the concrete to be cast after that. The opening end 2a of the pipe 2 and the closing plug 3 are less likely to be buried. Further, it is possible to reduce the risk that the wireless tag 4 will come off from the closing plug 3 due to the impact at the time of placing concrete.

In the above 1st to 5th embodiments, the construction method of the structure has been described by illustrating the case where the concrete structure constitutes the wall portion. However, the construction method of the structure of the present invention can be similarly applied even when the concrete structure constitutes the floor portion and the ceiling portion. Further, in the above 1st to 5th embodiments, the construction method of the concrete structure has been described as an example of the construction method of the structure. However, the method of constructing a structure of the present invention can also be applied to the construction of a structure in which pipes are embedded in a structure material other than concrete, and the same effect can be obtained.

The present invention is not limited to the above-described embodiments and modifications, and further includes various modifications. For example, the above-described embodiment has been described in detail in order to explain the present invention in an easy-to-understand manner, and is not necessarily limited to the one including all the described configurations. Further, it is possible to replace a part of the configuration of one embodiment with the configuration of another embodiment, and it is also possible to add the configuration of another embodiment to the configuration of one embodiment. Further, it is possible to add / delete / replace a part of the configuration of each embodiment with another configuration.

1 ... Reinforcing bar assembly 1a ... Reinforcing bar 2,2'... Piping 2a, 2a' ... Opening end 3,3' ... Blocking plug 3a ... Outer surface 3aa ... Recessed 4 ... Wireless tag 4a ... Long-distance wireless tag 4b ... Short-range wireless Tag 5 ... Formwork 6 ... Concrete (structural material)
20 ... Wireless tag reader 30 ... Terminal device 31 ... Display unit 100a, 100b ... Communication range 10 ... Concrete structure (structure)

Claims (10)

It is a construction method of a structure in which the open end of a pipe embedded in a structure material is exposed from the structure material.
The pipe is embedded with the structural material in a state where the wireless tag is provided on the closing plug that closes the open end of the pipe.
By detecting the wireless tag with the wireless tag reader, the position where the open end of the pipe is embedded in the structural material is detected.
A method for constructing a structure in which the open end of the pipe is exposed from the structure material by removing the structure material at a position where the open end of the pipe is embedded in the structure material. When the pipe is embedded with the structural material, the formwork is arranged so as to face the opening end of the pipe closed by the blocking plug, and the structural material is surrounded by the mold. The pipe is buried by supplying
The method for constructing a structure according to claim 1, wherein the formwork is removed when the wireless tag is detected by the wireless tag reader. The wireless tag holds the attribute information of the pipe and
The method for constructing a structure according to claim 1, wherein the wireless tag reader reads the attribute information from the wireless tag and displays the read attribute information on a display unit of a terminal device. The terminal device holds the three-dimensional data of the pipe associated with the attribute information, and displays the three-dimensional data of the pipe on the display unit based on the attribute information read by the wireless tag reader. The construction method of the structure according to 3. The method for constructing a structure according to claim 1, wherein a plurality of wireless tags having different communication distances from the wireless tag reader are provided on the blocking plug. The method for constructing a structure according to claim 1, wherein the blocking plug has a recess for attaching the wireless tag. The method for constructing a structure according to claim 1, wherein the wireless tag is attached to a surface of the closing plug facing the inside of the pipe. The method for constructing a structure according to claim 1, wherein the wireless tag is a passive type using an electromagnetic wave from the wireless tag reader as a power source. The method for constructing a structure according to any one of claims 1 to 8, wherein the structure material is concrete. In the construction of a structure in which the open end of a pipe embedded in a structure material is exposed from the structure material, the open end of the pipe is closed in order to prevent the structural material from flowing into the inside of the pipe. It ’s a blocking plug,
A blockage plug for buried piping that has a recess for accommodating a wireless tag detected by a wireless tag reader.

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