KR100996282B1 - Reference frame and methode for qsm laying of underground installation using same - Google Patents

Abstract

PURPOSE: A reference frame and method for QSM laying of underground installation using same are provided to help a user to know underground facilities. CONSTITUTION: A support unit(120) is fixed to a certain part of underground facilities. An RFId tag(151) is installed at the certain part of the supporting unit and stores the information of underground facilities. The supporting unit has a rod shape and has one end which is fixed to the certain part of the underground facilities while having the other end which is extended to the ground. The support unit is comprised of a plurality of supporting members which are connected to each other.

Description

Reference frame and method for laying underground sewage using it {Reference frame and methode for QSM laying of underground installation using same}

The present invention relates to a reference frame and a method for laying underground buried material using the same. More specifically, by installing a reference frame including a support part and an RFID tag in an underground buried material, the underground buried material is safely buried according to the standards of the specification and the information of the underground buried material is stored. The present invention relates to a reference frame that can be identified and a method for laying underground underground works using the same.

Underground installations need periodic replacement or additional new installation due to aging. When replacing or additionally installing underground works, it is important to know the coordinates (X, Y, Z) and the depth of burial on the ground where the underground works are buried.

In order to check the location of the conventional underground buried, refer to the drawings provided by the management authority of the underground buried, but it was difficult to determine the location of the underground buried if the features of the top of the underground buried over time after the buried.

After that, magnetic markers or RFID tags were attached to the underground objects to detect the magnetic force or various radio waves, thereby confirming the location of the underground pipes. However, after the underground objects were buried, When the depth of embedding in the deep deep, there is a problem that it is difficult to detect the signal of the magnetic marker or RFID tag.

On the other hand, after laying underground underground works, it is necessary to repeat the backfilling and compacting operations at certain heights, but it is difficult to accurately identify the reference height for the backfilling and compacting operations during construction.

Therefore, there is a need for a reference frame capable of easily identifying the information of underground objects including the location of underground objects, providing a thickness standard for installing the material to be backfilled, and a method of buried underground objects using the object frame.

The present invention has been made to solve the above-described problems of the prior art, by providing a reference frame including a support and an RFID tag in the underground buried ground to provide a standard for safely buried underground buried in accordance with the standards of the specification and underground buried The purpose of the present invention is to provide a reference frame that can identify the information and the method of laying underground buried land using the same.

In order to achieve this object, the reference frame according to the present invention may include a support part fixed to a portion of the underground buried and an RFID tag for storing the information of the underground buried and installed on a portion of the support.

The support may have a rod shape, one end of which is fixed to a portion of the underground buried material, and the other end of which is extended to be adjacent to the ground.

In addition, the support portion is composed of a plurality of support members connected to each other, each support member is composed of a first connection portion provided at one end and a second connection portion provided at the other end, the first and second connection portion of each adjacent support member Can be combined with each other.

The support part is composed of a first support member, a plurality of (n-1) support member and the n-th support member and male and female to each other (n = 3, 4, 5, ..., n), the first support member One end is connected to the upper end of the underground buried material, the (n-1) support member is formed in the upper end of the body portion, the upper end of the body portion, the coupling portion having a smaller diameter than the body portion, the upper end of the coupling portion The protrusion may include a protrusion having a smaller diameter than the coupling portion and an insertion portion in which a groove is formed inward at a lower end of the body portion.

The support part may further include a guide plate provided on at least one connection part to which the support members are coupled to each other.

On the other hand, the support portion may further include a guide plate coupled to the coupling portion of at least one (n-1) support member.

Any one of the guide plate may contain a liquid colorant flowing out when the case of the guide plate is damaged.

The RFID tag may store at least one or more information selected from the type, material, shape, buried coordinates, buried depth, buried date, unique number, construction agency construction and construction participants of the underground buried material.

The support part may further include a base part coupled to one end of the first support member to fix the first support member to the underground buried material.

In addition, the method of embedding underground buried material using the reference frame of the present invention, the first step of fixing the first support member of the reference frame to a certain portion of the underground buried material, and then placing and backfilling material to the upper end of the first support, the first frame of the reference frame (n-1) a second step of connecting the support member to the first support member, and placing and compacting backfill material to the upper end of the connected (n-1) support member; and the nth support member of the reference frame. and (n-1) a third step of connecting to the support member and laying and compacting the backfill material up to the upper end of the n-th support member.

Any one of the first to third steps may further include installing an RFID box having an RFID tag in which information about the underground buried material is stored at a predetermined position of the reference frame before backfilling and compacting.

Any one of the first to third steps may further include installing a guide plate at a predetermined position of the reference frame before backfilling and compacting.

According to the present invention, by installing the reference frame including the support and the RFID tag in the underground buried material, realizing the construction room name system, information on the underground buried material is stored permanently, thereby increasing the responsibility of construction workers and construction participants, and If information is needed, only underground detectors can communicate with the RFID tag, so it is possible to accurately and quickly verify the information in the underground deposits.

In addition, at least one guide plate may be installed at a predetermined position of the reference frame to confirm the depth of the underground buried substance. If the liquid crystal colorant is contained in the guide plate closest to the ground and the case of the guide plate is broken The liquid colorant is leaked to the outside, so it is easy to receive underground buried information through visual identification, thereby saving time spent in responding to accidents in the field.

In addition, the support portion is constituted by a plurality of respective support portions having a predetermined length, the first support portion is connected to the underground embankment, the backing up and compaction are performed up to the height of the first support portion, the second support portion is connected again, By repeating the refilling and compacting process until the ground buried, according to the specification of the underground buried construction, it is possible to secure the quality that the ground does not settle by the formation of a stable strata after the underground buried construction. It has the effect of implementing a quality safety maintenance (QSM) method that can facilitate post-maintenance.

1 is a view schematically showing a reference frame fixed to the underground buried material according to an embodiment of the present invention.
2 is a view showing a reference frame according to an embodiment of the present invention.
3 (a) to 3 (c) are views illustrating a base part according to an embodiment of the present invention.
4 is a view showing an upper surface of the base portion according to the embodiment of the present invention.
Figure 5 (a) is an exploded perspective view showing the information guide plate coupled to the support member according to an embodiment of the present invention, (b) is a view showing the information guide plate according to an embodiment of the present invention.
Figure 6 is a flow chart showing a method of laying underground buried using the reference frame according to an embodiment of the present invention.
7 is a view showing a method of laying underground buried material using a reference frame according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view schematically showing a reference frame fixed to the underground buried material according to an embodiment of the present invention, Figure 2 is a view showing a reference frame according to an embodiment of the present invention, Figure 3 (a) to (c) is 4 is a view showing a base portion according to an embodiment of the present invention, Figure 4 is a view showing an upper surface of the base portion according to an embodiment of the present invention.

1 and 2, the reference frame 100 according to the embodiment of the present invention includes a support 120 fixed to the underground buried material 110 and an RFID tag 151 installed on the support 120. It may be configured to further include a guide plate, the base portion 170. The guide plate may include an information guide plate 141 and a warning guide plate 145.

Underground buried 110 is mostly pipe-shaped, including gas, oil, electricity, telecommunications, water supply, sewage, heating heat pipes, and is buried in the ground.

The supporting portion 120 is fixed to a certain portion of the underground buried material 110. Generally, a surface contacting the bottom surface where the underground buried material 110 is buried is referred to as a lower end portion, It is preferable that the underground buried material 110 is fixed to the top of the underground buried material 110 so as to be perpendicular to the buried bottom surface.

The support portion 120 has a long pipe shape and one end is fixed to the upper end of the underground buried material 110, the other end is installed adjacent to the ground. Since the length of the support part 120 may be variously formed, it may be appropriately selected and used according to the depth at which the underground buried material 110 is embedded.

The support part 120 may be formed integrally, or may be composed of a plurality of support members 121 to 129 having a predetermined length and connected to each other. Each of the support members 121 to 129 includes first and second connection parts at one end and the other end thereof, and the first and second connection parts of adjacent support members are coupled to each other.

For example, the support 120 may include a first, a plurality of (n-1), and an nth support members. Referring to FIG. 1, the reference frame 100 according to an embodiment of the present invention has n = 9. In some cases, the (n-1) th support member refers to the second to eighth support members 122 to 128. And the nth support member points to the ninth support member 129.

Reference frame 100 according to an embodiment of the present invention is composed of a total of nine support members, the number may be changed according to the depth of embedding of underground buried material (110).

In addition, the first to ninth support members 121 to 129 preferably have a length of about 30 cm in accordance with the specification of the underground buried construction, but the length is not limited thereto.

The lower end of the first support member 121 is fixed to the underground buried material 110, and the lower end of the second support member 122 is fixed to the upper end of the first support member 121. The third to eighth support members 123 to 128 are sequentially connected to the second to seventh support members 122 to 127. The lower end of the ninth support member 129 is connected to the upper end of the eighth support member 128.

For example, referring to FIG. 2, the second support member 122 may include a second body 321, a second coupling part 323, a second protrusion 325, and a second support member 122. It is configured to include two insertion portion (327). For reference, the second insertion part 327 may be referred to as a first connection part provided at one end of the second support member 122, and the second coupling part 323 and the second protrusion 325 may be a second support member. The second connection portion provided at the other end of the 122.

The second body portion 321 has a generally cylindrical shape and protrudes from the upper end thereof. The second body portion 321 has a second engagement portion 323 having a diameter smaller than that of the second body portion 321, A second protrusion 325 is formed to protrude and has a smaller diameter than the second coupling part 323, and a second insertion part 327 having a groove formed inward is formed at a lower end thereof.

At this time, the second coupling portion 323 is formed with a screw thread for screwing the guide plate, the third protrusion 325 of the third support member 123 is also connected to the upper portion of the second support member 122 A thread for forming the insertion portion is formed. The second insertion portion 327 is provided with a screw thread for inserting the protrusion 315 of the first support member 121. Therefore, the size of the groove of the second insertion portion 327 is preferably larger than the first protrusion 315 of the first support member 121.

At this time, the first support member 121 is a support member fixed to the underground buried material 110, the first insertion portion is not formed, and the ninth support member 129 has no support member to be additionally fixed to the upper end, so that the ninth protrusion Is not formed.

The RFID box 150 includes an RFID tag 151 in which information about the underground buried material 110 is stored. The RFID box 150 is installed at a portion of the support 120, and specifically, the RFID box 150 is provided with at least one connection part to which the plurality of support members 121 to 129 constituting the support 120 are coupled to each other.

The RFID tag 151 wirelessly recognizes information by using low frequency or various radio waves. The type, material, shape, buried coordinates, buried depth, buried date, unique number, management institution, construction company, and construction of underground buried material 110 Store at least one information selected from the participants.

1 and 2, the support part 120 is coupled to the seventh coupling part 373 of the seventh support member 127. This is a position where the RF signal can be smoothly transmitted and received while maintaining an appropriate distance from the ground to prevent damage of the RFID tag 151. Therefore, the operator can later accurately and quickly check the embedding position of the underground buried material 110 using a detector. However, the RFID tag 151 may be installed on the fifth support member 125 or the sixth support member 126 or on the base 170 fixed to the underground buried material 110.

Meanwhile, a guide plate including an information guide plate 141 and a warning guide plate 145 may be installed at at least one connection portion to which the plurality of support members 121 to 129 are coupled to each other. A total of four guide plates including three information guide plates 141 and one warning guide plate 145 are installed in the support part 120 illustrated in FIG. 1.

In detail, the information guide plate 141 is installed at each coupling part 133 of the second, fourth, and sixth support members 122, 124, and 126. Each of the support members 121 to 129 has a length of about 30 cm from the lower end of the body portion to the upper end of the engaging portion so that the information guide plate 141 is installed at 60 cm, 120 cm and 180 cm with respect to the upper end of the underground stuff 110.

In addition, the warning guide plate 145 is installed above the ninth support member 129. The warning guide plate 145 has a liquid colorant stored therein in a disc or square plate shape thicker than the information guide plate 141. That is, when the case of the warning guide plate 145 is broken at the time of construction relating to the underground stuff 110 such as drilling work or tearing machine, the liquid colorant stored therein is leaked to the outside, Make sure that it is buried.

The information board 141 and the warning board 145 are provided on the guide board with the index of the type of the underground object 110 and the unique number and the coordinates (X, Y, Z) The coordinate value of the, the information such as the size of the underground buried 110 may be described to help the worker's work. How to combine the signs will be described in more detail later.

When the support part 120 according to the embodiment of the present invention is fixed to the underground buried material 110, it may be fixed by the base part 170.

Referring to FIG. 3A, one end of the first support member 121 of the support part 120 is coupled to the base part 170, and the base part 170 is an adhesive layer formed on an upper end of the underground buried material 110. It is fixed to the underground buried material 110 by 171.

In addition, referring to Figures 3 (b) and (c) it is fixed to the underground buried material 110 by the binding portion 177 provided at both ends of the base portion 170. The binding unit 177 is fastened to each other after a plurality of fastening holes are formed and wrapped in the underground embedding 110. The support part 120 is coupled to the upper surface of the base part 170.

At this time, when the base 170 is fixed to the support 120 by the adhesive layer 171, the underground buried material 110 is preferably a large pipe having a large curvature such as gas, oil, water, sewerage, heating heat pipe. In addition, when the base portion 170 is fixed to the support portion 120 by the binding portion 177, the underground buried material 110 is preferably a small tube or corrugated tube such as communication, electricity.

In addition, as shown in FIG. 4, the base portion 170 may be formed of a central hole 144 as a thin plate member, and information of the underground buried material 110 may be described in the plate member. The base unit 170 according to the embodiment of the present invention has been described as being a plate member having a square shape, but the shape and size thereof are not limited thereto.

Figure 5 (a) is an exploded perspective view showing the information guide plate coupled to the support member according to an embodiment of the present invention, (b) is a view showing the information guide plate according to an embodiment of the present invention. FIG. 5A illustrates an information guide plate 141 coupled between the second and third support members 122 and 123.

The information guide plate 141 is a thin plate member, the center hole 142 is formed, the plate member may be the information of the underground buried material 110, such as the depth of the construction, the underground buried material 110 is embedded.

A screw thread is formed in the hole 142 to be screwed to the second coupling portion 323 of the second support member 122. After the information guide plate 141 is coupled to the second coupling part 323, the third insertion part 337 of the third support member 123 and the second protrusion 325 of the second support member 122 are provided. The second and third support members 122 and 123 are connected to each other.

Although FIG. 5 illustrates a method in which the information guide plate 141 is coupled between the second and third support members 122 and 123, the fourth and fifth support members 124 and 125 and the sixth and seventh supports are illustrated. The same is true for the information guide plate 141 coupled between the members 126 and 127. At this time, the radius of the information guide plate 141 is preferably larger than the second support member 122 in order to more easily combine when screwing.

The information guide plate 141 according to the embodiment of the present invention has been described as being a plate member having a disc shape, but the shape and size thereof are not limited thereto.

On the other hand, the warning-use guide plate 145 shown in Fig. 1 has a space formed inside by increasing the thickness of the information-purpose guide plate 141. When the liquid colorant is injected into the space inside, the liquid colorant Allow outflow.

On the other hand, the reference frame 100 according to an embodiment of the present invention, the support 120, the information guide plate 141, the warning guide plate 145, RFID box 150, the base portion 170 all underground buried material 110 , The color of the reference frame 100 that appears when the user hits the ground at the time of construction such as a drilling operation or a terra cotta machine is not limited to the color of the underground buried object 110, Can be provided. For example, gas pipes may be yellow, oil pipes brown, power lines red, communication cables green, and water pipes blue.

FIG. 6 is a flowchart illustrating a method for laying underground buried material using a reference frame according to an exemplary embodiment of the present invention, and FIG. 7 is a view illustrating a method for laying underground buried material using a reference frame according to an embodiment of the present invention.

The underground embedding method using the reference frame according to an embodiment of the present invention is a QSM (Quality Safety Maintenance) embedding method.

Here, QSM buried method is a quality safety maintenance buried method, it is possible to secure the quality that the ground does not settle down by the formation of a stable strata after the construction of underground buried (110), thereby ensuring a safe and excellent construction quality and maintenance after construction Refers to the buried method that can be easily.

Referring to FIG. 6, first, as shown in FIG. 7A, the underground buried body 110 is buried in the ground in step S610. In step S615, a first support member 121 ). Then, the backfill material including sand is laid and compacted to the height of the upper end of the first coupling part 313 of the first support member 121, that is, to the height of 30 cm from the top of the underground buried material 110. At this time, by filling the backfill material to the height of the first coupling portion 313 can be constructed in accordance with the specifications of the specification.

Meanwhile, the first support member 121 may be fixed to the underground buried material 110 using the adhesive layer 171, and a base portion 170 may be further installed between the adhesive layer 171 and the first support member 121. May be The thickness of the base portion 170 shown in FIG. 7 is expressed more exaggerated than the actual thickness, and the thickness of the backing material embedded in the upper end of the first engagement portion 313 of the first support member 121 is preferably 30 cm Do.

Next, as shown in (b) of FIG. 7 at step S620, the second support member 122 is connected to the first support member 121, and the second coupling part 323 of the second support member 122 is connected thereto. Screw the information guide plate 141 to. Then, the backfill material is laid and compacted to the height of the upper end of the information guide plate 141, that is, to the height of 60 cm from the upper end of the underground buried material 110.

Next, in step S625, as shown in FIG. 7C, the third support member 123 is connected to the second support member 122, and the third coupling part 333 of the third support member 122 is connected thereto. In other words, to lay the backfill material up to the height of 90cm from the top of the underground buried 110 to the height of the pledged.

Next, as shown in FIG. 7D, the fourth support member 124 is connected to the third support member 123, and the information guide plate 141 is installed on the fourth support member 124. And a backing material is laid on the upper surface of the guide plate 141 and verified. The fifth supporting member 125 is connected to the fourth supporting member 124, and the backfill material is laid and compacted to the height of the fifth coupling part 353 of the fifth supporting member 125. Then, the sixth supporting member 126 is connected to the fifth supporting member 125, and the information guide plate 141 is installed on the sixth coupling part 363 of the sixth supporting member 126, and the information guide plate 141 is provided. Lay out the backfill material up to the top surface of the and compact it.

In operation S630, the seventh support member 127 is connected to the sixth support member 126.

In operation S635, the RFID box 150 having the RFID tag 151 embedded therein is installed in the seventh support member 127, and the backfill material is laid and compacted up to the upper surface of the RFID box 150. As a result, only the seventh protrusion 135 of the seventh support member 127 is visible on the land where the backfilling and compaction are completed. In this case, in order to more smoothly communicate with the RFID tag 151, the RFID box 150 may be installed on the seventh support member 127 while keeping the horizontal.

Next, in step S640, as shown in FIG. 7E, the eighth support member 128 is inserted into the seventh protrusion 375 of the seventh support member 127, and the eighth coupling part 383 is closed. Lay out the backfill material to the top surface and compact it.

Next, as shown in FIG. 7F, the ninth support member 129 is connected to the eighth support member 128 in step S645.

Finally, as shown in (g) of FIG. 7 at S650, the warning guide plate 145 including the liquid colorant is installed in the ninth coupling part 393 of the ninth support member 129, and the warning guide plate ( 145) Lay and compact backfill material to cover.

In this case, the guide plate including the information guide plate 141 and the warning guide plate 145 may or may not be installed by regulation, and the information guide plate 141 and the RFID box 150 are installed at this position. It is not limited.

On the other hand, the thickness of the warning guide plate 145 or the RFID box 150 may be thicker than the information guide plate 141, and thus the seventh and ninth coupling portions of the seventh and ninth support members 127 and 129. The thickness of 133 may be thicker than other supports.

Through this process, each supporting member is connected, and the backing up to the height of the coupling part of the connected supporting member is repeated and compaction is repeated. When the underground buried material is buried, the height of about 30 cm It is possible to carry out backfilling and compaction repeatedly, so that it can be installed more safely.

Although the reference frame of the present invention has been described for connecting each support member through a male and female coupling, the connection method of each support is not limited thereto. For example, threads may be formed at both ends of each support member, and may be connected using separate connection members connecting both ends of adjacent support members to each other.

Referring to the drawings, the reference frame of the present invention and the method of embedding underground underground using the same by installing the reference frame including the support and the RFID tag installed on the support in the buried underground buried safely buried underground buried in accordance with the standards of the specification and underground buried It is effective to confirm the information.

In the above, the configuration and operation of the present invention has been shown in accordance with the above description and drawings, but this is merely an example, and various changes and modifications are possible without departing from the spirit and scope of the present invention. .

100: reference frame 110: underground burial
120: support portion 121 to 129: support member
131: body 141: information board
145: warning sign 150: RFID box
151 RFID tag 170 Base portion

Claims (12)

delete delete Support portion fixed to a portion of the underground buried; And
Includes; RFID tag to store the information of the underground buried and installed in a portion of the support;
The support portion has a rod shape and one end is fixed to a portion of the underground buried and the other end is installed adjacent to the ground,
The support portion is composed of a plurality of support members are connected to each other,
Each support member is composed of a first connection portion provided at one end and a second connection portion provided at the other end, the reference frame, characterized in that the first and second connection portions of each adjacent support member are coupled to each other. Support portion fixed to a portion of the underground buried; And
Includes; RFID tag to store the information of the underground buried and installed in a portion of the support;
The support portion has a rod shape and one end is fixed to a portion of the underground buried and the other end is installed adjacent to the ground,
The support part is composed of a first support member, a plurality of (n-1) support member and the n-th support member and male and female coupling (n = 3, 4, 5, ..., n),
One end of the first support member is connected to the upper end of the underground buried material,
The (n-1) support member,
Body portion, a coupling portion formed protruding at the upper end of the body portion and smaller in diameter than the body portion, a protrusion formed at the upper end of the coupling portion and smaller in diameter than the coupling portion and a groove in the lower end of the body portion inwardly It includes an insertion portion formed,
The support portion,
And a base unit coupled to one end of the first support member to fix the first support member to the underground buried material. The method of claim 3,
The support may include a guide plate provided on at least one connection part to which the support members are coupled to each other;
Reference frame, characterized in that it further comprises. The method of claim 4, wherein
The support portion is guide plate coupled to the coupling portion of at least one (n-1) support member;
Reference frame, characterized in that it further comprises. The method according to claim 5 or 6,
Any one of the guide plate is a reference frame, characterized in that the liquid colorant is leaked to the outside when the case of the guide plate is broken. The method according to claim 3 or 4,
The RFID tag,
Reference frame, characterized in that for storing at least one or more information selected from the type, material, shape, buried coordinates, buried depth, buried date, unique number, management agency construction and construction participants. delete A first step of fixing and repositioning a backfill material to an upper end of the first support member after fixing the first support member of the reference frame to a portion of the underground embedding;
A second step of connecting the (n-1) th support member of the reference frame to the first support member and laying and compacting backfill material to the upper end of the connected (n-1) th support member; And
And a third step of connecting the n-th support member of the reference frame to the (n-1) th support member and placing and compacting a backfill material to an upper end of the n-th support member.
Any one of the first to third steps,
Before refilling and compacting, underground buried method using the reference frame, characterized in that the RFID box having an RFID tag is stored in the information on the underground buried at a predetermined position of the reference frame. delete The method of claim 10,
Any one of the first to third steps,
Before refilling and compaction, the step of installing a guide plate at a predetermined position of the reference frame; underground buried method using the reference frame, characterized in that it further comprises.

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