JP2541572B2 - Signs for underground buried object detection - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial field of application) The present invention relates to a buried object (gas pipe, distribution pipe, water pipe, etc.).
With respect to the sign body laid in the ground between the ground and the ground in more detail, the buried point of the underground buried object can be detected later by responding to the detection signal transmitted from the ground. The present invention relates to a marker for detecting an underground buried object.

(Prior Art) A marker having an LC resonance circuit is embedded in the vicinity of an underground buried object in advance, and at a later date, a detection signal having the resonance frequency component of the LC resonance circuit is sent from the ground to detect the LC resonance circuit. 2. Description of the Related Art There is a known system that detects the response of a resonance circuit (absorption of a detection signal or emission of a resonance signal) to detect the buried position of the underground buried object.

The sign used in such a system is, for example, groundwater overflow, vibration from the ground, etc., and is left for a long time in the ground under a bad environment. It is generally constructed by sealing an LC resonant circuit inside a case.

As a marker with a structure in which the LC resonance circuit is sealed in the case,
For example, it is disclosed in US Pat. No. 4,334,227.

(Problems to be solved by the invention) In the conventional installation of the sign body, the buried object is installed in the groove and filled with earth and sand, the sign body is installed on the buried object, and the excavated earth and sand is further buried on the sign object. It is done by putting it back. However, since the sign body is simply placed on the earth and sand where the buried object is buried, the sign body may move or the burial posture may change when the excavated earth and sand are backfilled. There was a drawback that it could not be installed in the correct position.

Moreover, when the trench dug when burying the buried object is narrow and deep, it is unavoidable to throw the marker, and it is difficult to lay the marker in a predetermined position in a correct posture.

Furthermore, when the underground buried object is long and continuous like a gas pipe, a plurality of markers are buried along the continuous underground buried pipe with a predetermined interval. There is also a problem that the work is troublesome.

(Means for Solving Problems) The underground buried object detection marker of the present invention is laid in the ground between the underground buried object and the ground, and responds to a detection signal sent from the ground to A signboard that notifies the buried point of a buried object, a long sheet in which a plurality of antenna coils are installed at predetermined intervals along the longitudinal direction, and a resonance circuit together with each antenna coil. A plurality of cases each of which has a passive element other than the antenna coil and which is mounted on the seat and is attached to the seat, wherein each antenna coil and the passive element are electrically connected to each other. .

(Operation) In the underground buried object detection marker of the present invention, a long sheet provided with a plurality of resonant circuits in advance at predetermined intervals is used.
Roll it into a small volume, transport it to the work position, and unfold the sheet wound along the underground buried object on the excavated soil where the underground buried object is backfilled to an appropriate thickness. As a result, the plurality of resonance circuits respectively configured by the antenna coil and the other passive element are embedded at the predetermined intervals and at the predetermined positions in the correct posture.

(Example) Hereinafter, the Example of this invention is described in detail based on drawing.

FIG. 3 is a horizontal cross-sectional view showing the arrangement of underground buried object detection markers. Underground objects such as gas pipes and distribution pipes 1
Must be excavated again for maintenance, repair, etc., but in order not to damage or destroy the buried object 1 by this excavation work, it is necessary to extend it over the buried object 1 (via an appropriate backfill soil). The Ministry of Construction is instructing that the lengthy sheet 2 should be laid. The present invention effectively utilizes this long sheet 2.

In the present embodiment, a plurality of crystal resonance circuits 3 (see FIG. 1) for notifying the buried point of the underground buried object 1 in response to a detection signal transmitted from the ground are provided on the long sheet 2 in the longitudinal direction. Are provided at appropriate intervals. The crystal resonance circuit 3 is a kind of LC resonance circuit, and as shown in FIG.
An antenna coil 301, a capacitor 302 as another passive element, and a crystal resonator 303 are respectively connected in parallel. Since the crystal resonance circuit 3 has a large amount of energy stored therein, a large response signal to the detection signal can be obtained.

FIG. 1 is an exploded perspective view of an underground buried object detection marker of the present invention, and FIG. 2 is a partial perspective view thereof. This underground buried object detection marker comprises a plurality of antenna coils 301, 301 that form each quartz crystal resonance circuit 3 on a long sheet 2 formed of a resin material and disposed on the buried object 1. , ... are pre-installed at predetermined intervals. On one side edge of the sheet 2, a plurality of cases 4 ... In which a capacitor 302, which is a passive element other than the antenna coil 301 constituting the crystal resonance circuit 3, and a crystal resonator 303 are housed are mounted. Capacitor 302 in case 4 mounted on seat 2
The crystal oscillator 303 is electrically connected to the pair of terminals 304 of each antenna coil 301.

The resin sheet 2 is, for example, configured by stacking an upper sheet 201 and a lower sheet 202 in an aligned state over the whole, and the antenna coil 301 includes an upper sheet between the upper sheet 201 and the lower sheet 202. It is provided so as to be integrated with the 201 and the lower sheet 202. Each terminal 304 of the antenna coil 301 is in a state of laterally extending from one side edge of the sheet 2.

In this case, the material of the lower sheet 202 of the sheet 2 may be made slightly harder than the material of the upper sheet 201 so that the sheet 2 has shape retention. The upper sheet 201
Does not have to be provided on the entire lower sheet 202, but may be provided only on the range that covers the antenna coil 301.

Case 4 that houses the capacitor 302 and the crystal unit 303
Is a pair of clip pieces 402 and 403 which are spaced a little smaller than the vertical thickness of the sheet 2 so as to contact the upper and lower surfaces of the side edges of the sheet 2 and sandwich the sheet 2 in the vertical direction. Have Clip pieces 402 and 4
03 is adapted to be fitted to the side edge portion of the seat 2 to sandwich the side edge portion of the seat 2. Each clip piece 401 and 4
Between 02, a pair of terminals (not shown) connected to each terminal 304 of the antenna coil 301 is provided. Each terminal provided between each clip piece 401 and 402 is a female type when each terminal 304 of the antenna coil 301 is a male type, and conversely is a male type when each terminal 304 is a female type. To be done.

The case 4 can be opened and closed, and after the condenser 302 and the crystal unit 303, which are passive elements, are stored,
These can be sealed.

As described above, the clip piece 401 is attached to the one side edge portion of the seat 2 where the terminals 304 of the antenna coil 301 are provided.
Case 4 is seat 2 by fitting and 402
Attached to. When the case 4 is attached to the side edge portion of the sheet 2, each terminal 304 of the antenna coil 301 and each terminal of the passive element provided in the case 4 are electrically connected. Then, attach each clip piece 401 and 402 to the seat 2
It is fixed to the side edge of the sheet by an adhesive or by tightening with screws or the like. The attachment of the case 4 to the seat 2 is not limited to the pair of clip pieces 401 and 402.

The sign body of the present invention having such a configuration can be made into a small volume by winding the sheet 2 on which the case 4 is mounted. Therefore, it is transported to the laying site in a small bulk state. Then, as shown in FIG. 3, it is laid on the excavated soil 501 which is backfilled with an appropriate thickness on the underground buried object 1.

The underground buried object 1 is arranged in a groove 6 obtained by excavating the ground 5 (road or the like) to a predetermined depth. Then, the buried object 1 in the groove 6 is backfilled to a suitable thickness with the excavated soil 501, and the sheet 2 wound on the excavated soil 501 is developed and laid. After that, the remaining excavated soil 502 is completely backfilled on the laid sheet 2 and compacted to restore the state of a road or the like.

The sheet 2 laid on the underground buried object 1 is in a state where the crystal resonance circuit 3 is arranged at appropriate intervals in the longitudinal direction, and at a later date, each crystal resonance circuit is detected by a detection signal from the ground. It is detected when the circuit 3 responds. As a result, the position of the underground buried object 1 is confirmed.

(Effects of the Invention) The underground buried object detection marker of the present invention allows each resonance by expanding a sheet provided with a plurality of resonant circuits at predetermined intervals along the underground buried object. The circuit can be arranged along the underground buried object at a predetermined position at a predetermined interval and in a correct posture. Therefore, a large number of resonant circuits can be buried accurately with good workability. As a result, it is possible to accurately detect the underground buried object at a later date.

Further, since the sheet is interposed between the resonant circuit and the underground buried object, there is no possibility that the resonant circuit will damage the underground buried object.

Further, when excavating the underground buried object again for maintenance and inspection, there is no risk of damaging the buried object by the excavating machine because of the sheet.

[Brief description of drawings]

The drawings show an embodiment of a marker for detecting an underground buried object according to the present invention,
FIG. 1 is an exploded perspective view of a buried object detecting marker of the present invention, FIG. 2 is a partial perspective view thereof, FIG. 3 is a sectional view showing its use state, and FIG. 4 is used for the marker. It is a resonance circuit diagram. 1 ... Underground object, 2 ... sheet, 3 ... crystal resonance circuit, 4 ... case, 201 ... upper sheet, 202 ... lower sheet, 301 ... antenna coil, 302 ... capacitor, 30
3 ... Crystal unit, 304 ... terminal, 401, 402 ... Clip piece.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Satoshi Mitsuishi 2-5-7 Koishikawa, Bunkyo-ku, Tokyo Meisei Electric Co., Ltd. (56) Reference JP-A-63-66484 (JP, A)

Claims (1)

(57) [Claims] 1. A marker body which is laid in the ground between an underground buried object and the ground and adapted to inform a buried point of the buried object in response to a detection signal transmitted from the ground. A long sheet in which individual antenna coils are installed along the longitudinal direction with a predetermined gap, and a passive element other than the antenna coil that forms a resonance circuit with each antenna coil is built in and mounted on the sheet. And a plurality of cases, each of the antenna coils and the passive element being electrically connected to each other.