JP3604459B2 - Installation location information indicator, installation location information marking device, installation location information marking pile, - Google Patents

Description

[0001]
[Industrial applications]
The present invention provides an installation position information indicator and an installation position information marking device and an installation position information indicating pile suitable for indicating various kinds of information such as the position of land and roads and a site, and an installation position information indicating pile and an installation position information label. Related to the cornerstone unit.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, an installation position information indicator that displays installation position information that is information on an installation position (for example, the position of a land or a road, or various information about a site) is used. Specific examples of the installation position information indicator include a position indicating stake and a surveying stake.
That is, in order to indicate points such as points for surveying and construction, and reference points for forming a national axis, a pile or the like is driven into those points, and the points are set by the piles. It was done in such a way as to specify the location.
[0003]
Conventionally, a foundation such as a building is provided with a foundation stone engraved with a date of construction start of the building for a monumental or decorative purpose. Recently, however, not only the date of commencement of the foundation stone but also the three-dimensional position (ie, latitude, longitude, altitude) on the earth coordinate of the site where the foundation stone is installed, or the site where the foundation stone is installed It has been proposed to engrave and record the name of the owner and the like, and to have the foundation stone also record information on the site where the foundation stone is installed. Because, by recording and marking information on the site on the foundation stone, buildings and the like are destroyed by earthquakes and wars, etc., the true owner's correspondence relationship with each site or the ownership of each site owner Even if it becomes difficult to visually determine the three-dimensional position, range, etc. of the site, the search for the foundation stone installed on the site is performed, and information on the site, which is stamped and recorded on the foundation stone. Is read, it is possible to determine the correspondence of the true owner to each site or the three-dimensional position and range of the site owned by each site owner. Such recently proposed cornerstones are an example of the installation position information indicator described above because they indicate information about the site where the cornerstones are installed.
[0004]
[Problems to be solved by the invention]
However, since the conventional position indicating piles and the like are all formed in the same shape, only by looking at the pile, the pile information such as the position of the point at which the pile was driven and the purpose of the driving is shown. Cannot be recognized (that is, the position, purpose, etc. of the stake must be recognized each time by comparing it with a topographic map or an already created survey drawing). Further, when the pile head is buried with fallen leaves or snow, it has been difficult to find the pile. Further, in the conventionally proposed foundation stone, when a building or the like is destroyed due to an earthquake, a war, or the like, debris due to the destruction accumulates on the site, and obstacles such as the rubble are recently proposed. Since the foundation stone is covered, it is difficult to find the foundation stone, and it is difficult to read the engraved record of the foundation stone.
[0005]
In view of the above circumstances, the present invention easily finds the position of an installation position information indicator, and can easily confirm the installation position information, an installation position information indicator, an installation position information indicating device, and an installation position information indicator. It aims to provide a pile and an installation position information marking foundation stone unit.
[0006]
[Means for Solving the Problems]
That is, the first invention of the present invention has an installation body (2, 205) that can be installed on the ground (62, 202), and the recording member holding space (12a, 209), and a combination of the first recording member (5A, 210A) and the second recording member (5B, 210B) capable of reading information from outside without contact in the recording member holding space (12a, 209). The information transmission distance of the first recording member (5A, 210A) is made longer than the information transmission distance of the second recording member (5B, 210B), and the information recording of the second recording member (5B, 210B) is performed. An installation position information indicator having a capacity larger than the information recording capacity of the first recording member (5A, 210A).In the first recording member, search information for searching for the installation position information indicator is recorded, and in the second recording member, the installation position information of the installation position information indicator Is recorded.
[0007]
In the present invention,twoThe invention has an installation main body (2, 205), and is embedded around the ground (62, 202) around the installation main body (2, 205) and can contact the ground (62, 202). 6, 204), a recording member holding space (12a, 209) is formed inside the installation body (2, 205), and information is contacted with the recording member holding space (12a, 209) from outside without contact. The first recording member (5A, 210A) and the second recording member (5B, 210B) are provided in combination, and the information transmission distance of the first recording member (5A, 210A) is set to the second recording member (5A, 210A). 5B, 210B), and the information recording capacity of the second recording member (5B, 210B) is larger than the information recording capacity of the first recording member (5A, 210A). Location information indicatorIn the first recording member, search information for searching for the installation position information indicator is recorded, and in the second recording member, the installation position information of the installation position information indicator Is characterized by having been recorded.
[0008]
In the present invention,threeThe invention of thetwoIn the installation position information indicator (1, 203) according to the present invention, the installation body (2, 205) is provided with a lid (3, 206), and the recording member holding space (12a, 209) is openable and closable. Be composed.
[0009]
In the present invention,FourThe invention of thetwoIn the installation position information indicator (1, 203) according to the present invention, the display units (205a, 3e) are formed at locations other than the side surface (204) of the installation body (205).
[0010]
In the present invention,FiveThe invention of thetwoIn the installation position information indicator (1, 203) according to the invention, the first recording member (5A, 210A) and the second recording member (5B, 210B) can be taken out from the recording member holding space (12a, 209). It was provided in the form.
[0011]
In the present invention,SixThe invention of thetwoIn the installation position information indicator (1, 203) according to the invention, the first recording member (5A, 210A) and the second recording member (5B, 210B) emit electromagnetic waves having a specific frequency when a magnetic field is externally applied. This is the magnetic discriminator that occurs.
[0012]
In the present invention,SevenThe invention of thetwoIn the installation position information indicator (1, 203) according to the invention, the first recording member (5A, 210A) or the second recording member (5B, 210B) records information in a rewritable manner.
[0013]
In the present invention,EightThe invention of thetwoThe installation position information indicator (1, 203) according to the invention of the present invention, and recorded on the first recording member (5A, 210A) and the second recording member (5B, 210B) in the installation position information indicator (1, 203). And a reading device (7) capable of reading the read information in a non-contact manner.
[0014]
In the present invention,NineThe present invention has an installation main body (2), and a stake point indicating section (11) is provided on the installation main body (2) so that the tip of the installation main body (2) protrudes. A first recording member (5A) and a second recording member (5B), which form a recording member holding space (12a) inside and can read information from outside without contacting the recording member holding space (12a). The information transmission distance of the first recording member (5A) is made longer than the information transmission distance of the second recording member (5B), and the information recording capacity of the second recording member (5B) is increased. More than the information recording capacity of one recording member (5A)The installation position information indicating pile, wherein the first recording member has recorded therein search information for searching for the installation position information indicating pile, and the second recording member has the installation position information. It is characterized in that the installation position information of the marking pile is recorded.
[0015]
In the tenth aspect of the present invention,NineIn the installation position information indicating pile (1) according to the invention, the cover (3) is provided on the installation main body (2) so that the recording member holding space (12a) can be opened and closed.
[0016]
In the present invention,elevenThe invention has an installation main body (205) having a display section (205a) formed therein, a recording member holding space (209) is formed inside the installation main body (205), and a recording member holding space (209) is formed in the recording member holding space (209). A first recording member (210A) and a second recording member (210B) capable of reading information from the outside in a non-contact manner are provided in a combined form, and an information transmission distance of the first recording member (210A) is set to the second recording member. (210B) is longer than the information transmission distance and the information recording capacity of the second recording member (210B) is larger than the information recording capacity of the first recording member (210A). unitIn the first recording member, search information for searching for the installation position information marking foundation stone unit is recorded, and in the second recording member, the installation position information marking foundation stone unit is installed. It is characterized by the fact that site information about the site is recorded.
[0017]
In the present invention,twelveThe invention of theelevenIn the installation position information marking foundation stone unit (203) according to the invention, the display section (205a) is provided with a site topography display section (205b).
[0018]
Note that (
Numbers in parentheses) are for convenience and indicate corresponding elements in the drawings, and thus the description is not limited to the description on the drawings. The same applies to the following operation columns.
[0019]
[Action]
With the above configuration, the first and second aspects of the present inventiontwoAccording to the invention, first, information recorded on the first recording member (5A, 210A) is read out of the installation main body (2, 205) in a non-contact manner via the information reading device (7). At the same time as reading, it is confirmed that the installation position information indicator (1, 203) exists near the position where the reading was performed, and then, near the position where the reading was performed, that is, the installation position information indicator (1, 203). The information recorded on the second recording member (5B, 210B) is read from the outside of the installation main body (2, 205) in a non-contact manner via the information reading device (7) near the position where ()) exists.
[0020]
Also,By reading the search information of the first recording member (5A, 210A), the search of the installation position information indicator (1, 203) is performed while narrowing the search range of the installation position information indicator (1, 203). The installation position information of the second recording member (5B, 210B) is read.
[0021]
In the present invention,threeAccording to the invention, the first and second recording members (5A, 210A, 5B, 210B) are housed in the recording member holding spaces (12a, 209) in the installation body (2, 205), and are closed from the outside by the lid. You.
[0022]
In the present invention,FourAccording to the invention, when the installation position information indicator (1, 203) is buried and installed in the ground (62, 202), the display unit (3e, 205a) is arranged on the ground.
[0023]
In the present invention,FiveAccording to the invention, the first or second recording member (5A, 210A, 5B, 210B) is replaced, or the first or second recording member (5A, 210A, 5B, 210B) is maintained, or the first or second recording member (5A, 210A, 5B, 210B) is maintained. When updating the information of the second recording member (5A, 210A, 5B, 210B), the first and second recording members (5A, 210A, 5B, 210B) are taken out of the recording member holding space (12a, 209).
[0024]
In the present invention,SixAccording to the invention, reading of information recorded on the first and second recording members (5A, 210A, 5B, 210B) is performed via electromagnetic waves.
[0025]
In the present invention,SevenAccording to the invention, when the information related to the installation position information indicator (1, 203) is changed, the information recorded on the first or second recording member (5A, 210A, 5B, 210B) is written. Change.
[0026]
In the present invention,EightAccording to the invention, the information recorded on the first recording member (5A, 210A) and the second recording member (5B, 210B) is read by the reading device (7) in a non-contact manner.
[0027]
In the present invention,NineAccording to the invention, first, information recorded on the first recording member (5A) is read out of the installation main body (2) in a non-contact manner via the information reading device (7). At the same time as reading, it is confirmed that the installation position information indicating pile (1) exists near the position where the reading was performed, and then the vicinity of the reading position, that is, the installation position information indicating pile (1) exists. In the vicinity of the position, information recorded on the second recording member (5B) is read from the outside of the installation main body (2) in a non-contact manner via the information reading device (7).
[0028]
In the present invention,TenAccording to the invention, the first or second recording member (5A, 5B) stored in the recording member holding space (12a) is placed in a state where the installation main body (2) is driven into the ground (62). The first or second recording member (5A, 5B) taken out of the recording member holding space (12a) taken out of the holding space (12a), and the first or second recording member taken out of the recording member holding space (12a). The recording member storing information different from the information stored in the second recording member (5A, 5B) is stored in the recording member holding space (12a).
[0029]
In the present invention,elevenAccording to the invention, first, the information recorded on the first recording member (210A) is read from the outside of the installation main body (205) in a non-contact manner via a reading device or the like. At the same time as reading, it is confirmed that the installation position information indicating foundation stone unit (203) exists near the position where the reading was performed, and then, near the reading position, that is, the installation position information indicating foundation stone unit (203). The information recorded in the second recording member (210B) is read from the outside of the installation main body (205) in a non-contact manner via a reading device or the like near the position where the information exists.
[0030]
In the present invention,twelveAccording to the invention, the terrain of the site is displayed on the site topography display section (205b).
[0031]
【Example】
Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a diagram showing a setting pile, which is an example of an installation position information indicating pile according to the present invention, and an information reading apparatus for reading the pile information of the setting pile. FIG. FIG. 3 is a cross-sectional view of the pile, FIG. 3 is a diagram showing a storage element stored in the driving pile shown in FIG. 1, and FIG. 4 is a state in which a plurality of driving piles shown in FIG. FIG. 5 is a diagram showing an information recording device used when recording pile information in the storage element shown in FIG. 3, and FIG. 6 (a) is an installation position information label according to the present invention. FIG. 6B is a vertical sectional view showing a foundation stone unit as an example of the foundation stone unit, FIG. 6B is a plan view showing a display unit of the foundation stone unit shown in FIG. 6A, and FIG. FIG. 8 is a plan view of a residential site on which the foundation stone unit shown in a) is installed, and FIG. The installation position information indication cornerstone stone unit shown in a) is a plan view showing another example.
[0032]
As shown in FIG. 4, on the ground surface 62e of the construction site 61, a plurality of reference points PT (each distinguished as reference points PT1 to PT4) serving as references for performing the construction are set. The three-dimensional position such as the latitude, longitude, and height of the set position of the point PT is accurately grasped by performing surveying or the like in advance. Each of the reference points PT is an example of an installation position information indicator according to the present invention in order to clearly indicate the position of the reference point PT. Piles 1 are respectively set. As shown in FIGS. 1 and 2, each driving pile 1 has a pile main body 2 as an installation main body formed of a material that can transmit magnetism such as plastic. The lower end is formed in a tapered shape at the lower end. 1 and 2 of the pile main body 2, a pile driving point indicating unit 11 is provided at the lower end of the pile main body 2 so that the tip of the pile main body 2 projects downward. The pile main body 2 is placed and installed on the ground 62 such that the axis TL1 is aligned with each reference point PT and the axis TL1 is vertical. In each of the pile bodies 2, a lid mounting hole 12 is formed extending in the up-down direction so as to open upward of the pile body 2. 1 and 2, a side surface 6 buried in the ground 62 and in contact with the ground 62 is formed on the lower side of the pile main body 2 around the pile main body 2. As shown in FIG.
[0033]
Further, as shown in FIGS. 1 and 2, a lid 3 is mounted in the lid mounting hole 12 of each pile body 2. That is, the cover 3 is provided with a pillar 3f, and the cover 3 can freely close and open the cover mounting hole 12 formed in the pile main body 2 by the pillar 3f. The length of the pillar 3f is shorter than the depth of the lid mounting hole 12. A hub portion 3e as a display portion formed in a disc shape is provided integrally with the column portion 3f on the upper portion of the lid 3, and the hub portion 3e has the same size as the upper surface of the pile main body 2. Is formed. On the upper surface of the hub 3e, as shown in FIG. 1, two center lines 13a and 13b indicating the center of the hub 3e, and an intersection XP of the center lines 13a and 13b is indicated by the hub 3e. It is written in the form formed in the center of the upper surface of. As shown in FIGS. 1 and 2, the lid 3 formed in this manner has a hub 3 e covering the upper surface of the pile main body 2 and the pillar 3 f inserted into the lid mounting hole 12. It is attached to the main body 2. Therefore, below the lid mounting hole 12 provided in each pile main body 2, as shown in FIGS. 1 and 2, the column 3 f of the lid 3 mounted on the pile main body 2 is provided. An element storage space 12a as a recording member holding space is formed so as not to reach the bottom. In the element storage space 12a,Pile information INF1 as search information to be described later and the installation position of each pile body 2 Pile information INF2 as informationThe storage elements 5A and 5B as recording members (magnetic discriminators) in which are stored in such a manner that they are combined in a pair and can be inserted and removed. Since the intersection point XP is formed at the center of the upper surface of the hub 3e of the lid 3, the intersection point XP is arranged at a position aligned with the axis TL1. It is arranged vertically above the reference point PT.
[0034]
As shown in FIG. 3, the storage element 5A (or the storage element 5B) has a tray 21 formed of a magnetically permeable resin material formed in a shallow container shape. Is formed. In the groove 21s, a magnetostrictive strip 22 formed of a thin plate-like amorphous metal magnetostrictive material (amorphous or the like) is not adhered to the tray 21 (that is, the magnetostrictive strip 22). 3 is stored and held in the groove 21s so that a hard ferromagnetic material (magnetic stainless steel, nickel, ferrite, etc.) is plate-shaped on the upper side of the magnetostrictive strip 22 in FIG. A plate 23 formed on the tray 21 is provided so as to cover the groove 21s in which the magnetostrictive strip 22 is housed. The plate 23 is adapted to apply a magnetic bias to the magnetostrictive strip 22 when it is magnetized. Note that the magnetization of the plate 23 of the storage element 5A (5B) can be such that a plurality of magnetic patterns MP1 (MP2) 2 are selectively formed.
[0035]
In the present embodiment, the plate 23 of the storage element 5A is magnetized by one type of magnetic pattern MP1 (that is, the storage element 5A is a storage member for one bit), and the plate 23 of the storage element 5B has a plurality of types ( It is magnetized by the magnetic pattern MP2 of, for example, about 4 to 64 types (that is, the storage element 5B is a storage member of about 4 to 64 bits). That is, the pile information INF1 (1 bit information), which is search information indicating the existence of the pile for pile 1, is stored and stored in the storage element 5A, and the pile is placed at each reference point PT in the storage element 5B. Pile information INF2 (4 to 64 bit information) indicating the placement position, placement purpose, and the like of the placement pile 1 is stored. That is, the information recording capacity of the storage element 5B is larger than the information recording capacity of the storage element 5A. Since the storage elements 5A and 5B are magnetic discriminators as described above, the storage elements having a longer information transmission distance have a smaller information recording capacity, and the storage elements having a larger information recording capacity have a shorter information transmission distance. . For example, the information transmission distance of the storage element for 1-bit information is about 1 to 1.5 m, and the information transmission distance of the storage element for 4- to 64-bit information is about 20 cm or less. Further, the magnetic pattern MP2 is set in a form corresponding to a predetermined magnetic code KD2, and the magnetic code KD2 is set in a form in which the pile information INF2 is converted into a plurality of numerical values. For this reason, even if the pile information INF2 is converted into a magnetic code KD2 of an arbitrary numerical value, if one pile information INF2 is set so as to correspond to one magnetic code KD2, the pile information INF2 becomes one magnetic pattern MP2. Always corresponds to one magnetic code KD2 (that is, pile information INF2), and does not correspond to a plurality of magnetic codes KD (that is, pile information INF). In the element storage space 12a, the space between the pile main body 2 and the storage element 5A (5B) may be filled with a filler (not shown) such as resin.
[0036]
On the other hand, an information reading device 7 as an example of a reading device used when reading the pile information INF1 and INF2 stored in the storage elements 5A and 5B will be described with reference to FIG. As shown in FIG. 1, the information reading device 7 includes a main control unit 31. The main control unit 31 has an input unit 32 such as a keyboard, an output unit 33 such as a display, via a bus line 31a, The magnetic field generation control unit 36, the search determination unit 37, the code conversion unit 40, the resonance detection unit 42, and the pattern detection unit 43 are connected. Further, the information reading device 7 has a transmission / reception antenna 39 composed of a coil, and the transmission / reception antenna 39 is connected to both the magnetic field generation control unit 36 and the resonance detection unit 42. The pile 1 and the information reading device 7 described above constitute a pile information marking device 70 as an example of the installation position information marking device according to the present invention.
[0037]
On the other hand, information can be freely recorded in the storage elements 5A and 5B. When performing this recording operation, an information recording device 50 described below is used. As shown in FIG. 5, the information recording device 50 has a main control unit 51. The main control unit 51 has a display unit 52 such as a display, an input unit 53 such as a keyboard, The head control unit 55 and the code conversion unit 56 are connected. A known (ie, electromagnet) magnetic head 57 is connected to the magnetic head controller 55.
[0038]
Since the driving pile 1, the information reading device 7 (that is, the pile information indicating device 70), and the information recording device 50 are configured as described above, the driving pile 1 can be installed at each reference point PT. Is performed as follows. First, the cover 3 is attached to the pile main body 2 on which the storage elements 5A and 5B are not installed. Then, the column 3 f of the lid 3 is inserted into the lid mounting hole 12 provided in the pile main body 2, and the hub 3 e of the lid 3 is mounted so as to cover the upper surface of the pile main body 2. Therefore, the pile main body 2 with the lid 3 is adjusted so that the pile driving point indicating section 11 is in contact with the reference point PT, as shown by a two-dot chain line in FIG. Is installed vertically in a shape vertically penetrating into the ground 62 as shown by a solid line in FIG. Then, as shown in FIG. 2, the pile main body 2 with the lid 3 attached thereto has the pile driving point indicating unit 11, the intersection point XP, and the reference point PT at the axis TL1 of the pile main body 2 extending in the vertical direction. It is driven vertically in a matching manner. Next, the lid 3 is removed from each of the driving piles 1, and the storage elements 5A and 5B corresponding to each driving pile 1 are stored in combination in the element storage space 12a opened upward. After storage, the lid 3 is attached to the pile main body 2 again.
[0039]
Next, to search the pile information INF1 and INF2 stored in each of the driving piles 1 while searching for the driving pile 1 that is driven at each reference point PT, the following is performed. First, the transmitting / receiving antenna 39 of the information reading device 7 is positioned at the construction site 61, and a command to start a search information reading operation is input via the input unit 32 of the information reading device 7. The input command is transmitted to the main control unit 31 via the bus line 31a, and the main control unit 31 receives the command for starting the search information reading operation and causes the magnetic field generation control unit 36 to generate a magnetic field. At the same time, it causes the resonance detection unit 42 to detect resonance. That is, the magnetic field generation control unit 36 generates, via the transmission / reception antenna 39, an AC magnetic field having a frequency HZ corresponding to the magnetic pattern MP1 of the storage element 5A of the driving pile 1 to be read. That is, an AC magnetic field of the frequency HZ is applied around the transmitting / receiving antenna 39. Further, the position of the transmitting / receiving antenna 39 is moved in the construction site 61 while the operation of generating the alternating magnetic field of the frequency HZ is continued (that is, the transmitting / receiving antenna 39 is moved in a form to search for the driving pile 1 to be read). Let me do it.) By the movement, it enters from the driving pile 1 to be read, that is, from the storage element 5A of the driving pile 1 within the information transmission distance (for example, 1 to 1.5 m) of the storage element 5A. I do. Then, an alternating magnetic field of a frequency HZ corresponding to the magnetic pattern MP1 of the plate 23 is applied to the plate 23 of the storage element 5A stored in the driving pile 1 with a size capable of resonance oscillation. The magnetostrictive strip 22 resonates and oscillates with an AC magnetic field having a frequency HZ corresponding to the magnetic pattern MP1 to generate a magnetic field. The magnetic field thus generated passes through the pile main body 2 and the lid 3 of the driving pile 1 and reaches the transmission / reception antenna 39 to generate an induced voltage in the transmission / reception antenna 39 (that is, the coil).
[0040]
That is, the resonance detecting unit 42 detects the occurrence of the induced voltage generated in the transmitting / receiving antenna 39 and transmits the detection result to the search determining unit 37. The search determination unit 37 reads the pile information INF1, that is, the existence information of the driving pile 1 to be read, based on the detection result (note that the pile information INF1 is 1-bit information, By receiving the result, the operation of recognizing the existence of the driving pile 1 to be read is a reading operation), and the vicinity of the transmitting / receiving antenna 39 (that is, within 1 to 1.5 m from the transmitting / receiving antenna 39). ), It is determined that the driving pile 1 to be read exists. Thereafter, the search determination unit 37 transmits the determination result to the output unit 33, and the output unit 33 displays and outputs the content of the determination result on a display or the like. The operator (not shown) confirms the display on the output unit 33, so that the vicinity of the transmitting / receiving antenna 39 (that is, within 1 to 1.5 m from the transmitting / receiving antenna 39) is the driving pile for reading. The transmission / reception antenna 39 is moved within the search range assuming that the search range 1 exists (that is, the transmission and reception antenna 39 is moved so as to search for the driving pile 1 to be read).
[0041]
Along with the movement of the transmitting / receiving antenna 39, a command to start installation information reading work is input via the input unit 32 of the information reading device 7. The input command is transmitted to the main control unit 31, and the main control unit 31 receives the command and causes the magnetic field generation control unit 36 to generate a magnetic field and the resonance detection unit 42 to detect resonance. . That is, the magnetic field generation control unit 36 applies an AC magnetic field at a predetermined frequency YH1 (that is, a frequency equivalent to the mechanical resonance frequency of the magnetostrictive strip 22 of the storage element 5B) via the transmitting / receiving antenna 39 in a form of one shot. After the generation of the magnetic field is stopped for a predetermined time interval YT1, an AC magnetic field of a predetermined frequency YH2 (ie, twice the frequency YH1) is generated in a single shot. After the generation of the magnetic field is stopped for a time interval YT1, an alternating magnetic field of a predetermined frequency YH3 (ie, a frequency three times the frequency YH1) is generated in a single shot, and then the generation of the magnetic field is stopped for a time interval YT1. Stop during YT2, and thereafter generate alternating magnetic fields of frequencies YH4, YH5, YH6,... (That is, harmonic frequencies of frequency YH1) in a single shot at intervals of time interval YT1. To.
[0042]
Further, the position of the transmitting / receiving antenna 39 is moved within the search range while continuing the operation of generating the alternating magnetic field of the frequencies YH4, YH5, YH6,. Move in the form of searching for 1). By the movement, it enters from the driving pile 1 to be read, that is, from the storage element 5B of the driving pile 1, within the information transmission distance (for example, about 20 cm) of the storage element 5B. Then, on the plate 23 of the storage element 5B of the driving pile 1 to be read, an alternating magnetic field of frequencies YH1, YH2, YH3,... The storage element 5B receives a magnetic field having a specific frequency YHn (several frequencies among the frequencies YH1, YH2, YH3,...) Corresponding to the magnetic pattern MP2. At this time, a magnetic field is generated by resonance oscillation due to the magneto-mechanical coupling action. The magnetic field generated in this way reaches the transmitting / receiving antenna 39 and causes the transmitting / receiving antenna 39 to generate an induced voltage.
[0043]
On the other hand, the resonance detector 42 detects resonance by detecting an induced voltage generated in the transmission / reception antenna 39. That is, the resonance detection unit 42 receives a command to execute the detection of resonance from the main control unit 31. Accordingly, the main control unit 31 transmits a command to generate a magnetic field sweep to the magnetic field generation control unit 36. Based on the time when the magnetic field generation control unit 36 performs a blow on the magnetic field of the predetermined frequency YH1 via the transmission / reception antenna 39, the presence / absence of an induced voltage generated in the transmission / reception antenna 39 with time is detected. When an induced voltage is generated in the transmitting / receiving antenna 39, the magnetostrictive strip 22 is resonating. Therefore, the presence or absence of the detected induced voltage with the passage of time is determined by detecting the presence of the induced voltage with the passage of time. Are sequentially reported to the main control unit 31 as resonance information YGH indicating the presence or absence of resonance.
[0044]
After the generation of the magnetic field by the magnetic field generation control unit 36 has been performed for a predetermined time and the detection of resonance by the resonance detection unit 42 has been performed for approximately the same time as the generation of the sweep, the main control unit 31 receives the received resonance information YGH. Is transmitted to the pattern detection unit 43. The patterns of the frequencies YH1, YH2, YH3,... Of the magnetic field generated by the magnetic field generation control unit 36 in the form of one blow with time are input in advance to the pattern detection unit 43. Therefore, the pattern detector 43 compares the resonance information YGH indicating the presence or absence of the resonance of the magnetostrictive strip 22 with the passage of time with the pattern, and detects the frequency YHn at which the magnetostrictive strip 22 resonates. You. The detected frequency YHn is transmitted to the code converter 40, and the code converter 40 converts the frequency YHn into a magnetic code composed of a predetermined electric signal. This magnetic code is the same as the magnetic code KD corresponding to the pile information INF2 of the storage element 5B described above. That is, since the pile information INF2 of the storage element 5B corresponds to the magnetic code KD and the magnetic pattern MP2, and also corresponds to the magnetic pattern MP2 and the frequency YHn, the frequency YHn is converted into the magnetic code KD. This means that the pile information INF2 of the storage element 5B has been read. Next, the magnetic code KD converted in the code conversion unit 40 is transmitted to the output unit 33. The output unit 33 displays and outputs the magnetic code KD by a numerical value or the like on a display. Since the displayed magnetic code KD corresponds to the pile information INF2 recorded in the storage element 5B as described above, by reading the magnetic code KD, each of the reference points PT (such as PT1 to PT4) is hit. The driving position (three-dimensional position of each reference point PT) of each provided driving pile 1 and the driving purpose of the driving pile 1 can be easily recognized.
[0045]
When the pile information INF2 of the storage element 5B is newly recorded or updated, the information recording device 50 described above performs the following. For example, as shown in FIG. 5, the recording surface 57a of the magnetic head 57 of the information recording device 50 is made to closely approach the surface 23a of the plate 23 of the storage element 5B. Next, the stake information INF2 is input in the form of a magnetic code KD using a plurality of numerical values via the input unit 53 of the information recording device 50. The magnetic code KD input via the input unit 53 is transmitted as a predetermined electric signal to the main control unit 51 via a bus line, and the main control unit 51 displays the magnetic code KD on the display unit 52 by numerical values or the like. (Not shown). The operator (not shown) confirms that the code KD input immediately before is not erroneously input by looking at the display (not shown) on the display unit 52, and inputs a recording execution command via the input unit 53. . The input command is transmitted to the main control unit 51, and the main control unit 51 transmits the input magnetic code KD to the code conversion unit 56. The code conversion unit 56 converts the transmitted code KD including the predetermined electric signal into a magnetic head control signal JS corresponding to the magnetic code KD, and the magnetic head control signal JS is transmitted to the magnetic head control unit 55. . The magnetic head controller 55 drives the magnetic head 57 based on the transmitted magnetic head control signal JS. That is, the magnetic head 57 is driven based on the magnetic head control signal JS corresponding to the magnetic code KD to generate a magnetic field whose magnitude changes in a pattern corresponding to the magnetic code KD from the recording surface 57a. A magnetic field is generated from the magnetic head 57, and the storage element 5 </ b> B in a state where the surface 23 a is in close proximity to the recording surface 57 a of the magnetic head 57 as described above is replaced by the magnetic head 57. The storage element 5B is slid in the direction of the arrow A in FIG. 5, which is one of the directions in which the plate 23 of the storage element 5B extends, through a known feeding device (not shown) while keeping the recording surface 57a close to and facing the recording surface 57a. As a result of the sliding, the plate 23 was magnetized in a magnetization pattern corresponding to the magnetic code KD in the same manner as in the conventional magnetic recording method. That is, the pile information INF2 was magnetically recorded in the storage element 5B in the form of the magnetic code KD corresponding to the pile information INF2.
[0046]
Note that the installation position information indicator according to the present invention may be configured in the following manner in addition to the above-described embodiment. For example, as shown in FIG. 6A, FIG. 6B, and FIG. 7, the ground 202 in the residential site 201 is an example of the installation position information indicator according to the present invention. A cornerstone unit 203, which is an example of the marking cornerstone unit, is provided. As shown in FIGS. 6A, 6B, and 7, the foundation stone unit 203 is a heat-resistant and durable material, and is a rectangular parallelepiped formed of a material that transmits magnetism (for example, marble or the like). And a main body 205 as an installation main body, and one surface (upper surface in the figure) of the six outer surfaces of the main body 205 is a marking surface 205a as a display unit. The main body 205 is buried in the ground 202 with the marking surface 205a oriented horizontally and upward, and the marking surface 205a side is exposed to the ground. It is installed in a form buried in 202. The main body 205 is composed of two parts, a lid member 206 and a holding member 207. The lid member 206 is an upper part of the main body 205, and the holding member 207 is a lower part of the main body 205. (Accordingly, the marking surface 205a is formed on the lid member 206.) Further, the lid member 206 and the holding member 207 are detachably engaged with each other. Also, the engagement between the lid member 206 and the holding member 207 is prevented so that the engagement between the lid member 206 and the holding member 207 is not inadvertently dislodged by the maximum possible vibration such as an earthquake. May be detachably engaged in a form in which the joints are joined and reinforced by detachable joining means (for example, bolts or the like) which are not shown. As described above, since the main body 205 is installed buried in the ground 202, the side and bottom of the main body 205 around the main body 205 as shown in FIG. A side surface 204 buried in the ground 202 and in contact with the ground 202 is formed.
[0047]
As shown in FIG. 6B, the engraving surface 205a formed on the cover member 206 has the start date and time of the construction of the building on the residential site 201, ie, the start date and time, and the owner name of the residential site 201. , Three-dimensional position information on the housing site 201 is stamped and recorded. In particular, as shown in FIG. 6B, a site shape display area 205b as a site topography display portion is formed on the engraving surface 205a, and the site shape display area 205b has a shape YKJ1 of the house site 201. (Shown in FIG. 7) is similarly reduced and marked as a shape YKJ2. The shape YKJ1 of the housing site 201 is a quadrangular shape having four corners 201a, 201b, 201c, and 201d, and the shape YKJ2 corresponding to the four corners 201a, 201b, 201c, and 201d. The latitude, longitude, and altitude of the corners 201a, 201b, 201c, 201d are stamped and recorded as numerical values in the two corners 201e, 201f, 201g, 201h. In this way, the date and time of commencement of construction and the name of the owner of the housing site 201 are stamped on the marking face 205a of the cornerstone unit 203, as in the case of the conventional cornerstone. Although the property is exhibited, the shape YKJ1 of the house site 201 can be displayed as the shape YJK2 in the site shape display area 205b of the engraving surface 205a. As a result, the characteristics of monuments and ornaments are further exhibited. On the other hand, on the upper surface side of the holding member 207 of the main body 205, as shown in FIG. 6A, a tag storage space 209 as a recording member holding space in the shape of a vertically extending hole is formed. When the cover member 206 and the holding member 207 are engaged with each other, the tag storage space 209 is sandwiched from above and below by the cover member 206 and the holding member 207, and the space between the tag storage space 209 and the outside of the main body 205 is established. , Are shut off by the main body 205. The tag storage space 209 has the same configuration as the storage elements 5A and 5B described above, that is, a recording configured as a magnetic discriminator including a tray formed with grooves as shown in FIG. 3, a magnetic strip, a plate, and the like. Tags 210A and 210B are inserted in combination.
[0048]
In this embodiment, the recording tag 210A can be magnetized by one type of magnetic pattern MQ1 (that is, the recording tag 210A is a storage member for 1 bit), and the recording tag 210B is plural types (for example, 4 to 64). (Ie, the type) of the magnetic pattern MQ2 (that is, the recording tag 210B is a storage member of about 4 to 64 bits). That is, the search information YJH1 (1 bit information) indicating the presence of the foundation stone unit 203 can be stored and stored in the recording tag 210A, and the start date and time of the construction of the building on the housing site 201 is stored in the recording tag 210B. That is, the start date and time, the owner name of the housing site 201, and site information YJH2 (4 to 64 bit information) such as three-dimensional position information of the housing site 201 can be stored and stored. Further, the recording tags 210A and 210B may be inserted in the tag storage space 209 so as to be placed on the holding member 207, and there is no need to join the recording tags 210A and 210B and the main body 205. .
[0049]
Since the housing site 201 and the cornerstone unit 203 installed on the housing site 201 are configured as described above, the cornerstone unit 203 is installed on the housing site 201 as follows. First, the three-dimensional position of the residential site 201 is measured. For example, as shown in FIG. 7, the latitude, longitude, and altitude of the four corners 201a, 201b, 201c, 201d in the shape YJK1 of the house site 201 are measured. After the three-dimensional position of the housing site 201 is measured, the start date and time of the building on the housing site 201 and the name of the owner of the housing site 201 are marked on the engraved surface 205a of the lid member 206 in the main body 205 of the foundation stone unit 203. The three-dimensional position of the residential site 201 is stamped on the site shape display area 205b of the stamping surface 205a. The three-dimensional position of the housing site 201 is stamped in the shape YJK2 of the housing site 201 in the form of a shape YJK2, and the latitude and longitude of the four corners 201a, 201b, 201c, and 201d obtained by the above-described survey. The altitude is stamped on the four corners 201e, 201f, 201g, and 201h of the shape YJK2 in the form of numerical values, respectively (note that this stamping operation is appropriately performed in a factory or the like). On the other hand, after the three-dimensional position of the residential site 201 is measured, the search information YJH1 is recorded in the recording tag 210A, and the site information YJ2H including the three-dimensional position, the construction start date and time, and the owner name is recorded in the recording tag 210B. Is recorded using the same recording device as the information recording device 50 used in the first embodiment described above (this recording operation may be performed at the residential site 1 or at a factory or the like). May be.)
[0050]
Next, the main body 205 of the foundation stone unit 203 is placed in a state where the lid member 206 is removed from the holding member 207, and the search information YJH1 and the site information YJH2 are magnetically recorded in the tag storage space 209 of the holding member 207 as described above. The inserted recording tags 210A and 210B are inserted, and after the insertion, the cover member 206 and the holding member 207, which are engraved on the engraving surface 205a as described above, are engaged with each other. In the case where a detachable joining means (not shown) is provided between them, the lid member 206 and the holding member 207 are joined and reinforced by the joining means (not shown).) Next, the main body 205 of the foundation stone unit 203 is buried in a predetermined position of the ground 202 in the housing site 201 with the marking surface 205a side of the main body 205 exposed to the ground. Thus, the installation of the cornerstone unit 203 on the housing site 201 has been completed.
[0051]
Further, the three-dimensional position of the housing site 201, the start date and time of the housing site 201, the owner name of the housing site 201, etc. are stamped and recorded on the stamping surface 205a as described above, and are also recorded as site information YJH2. The tag 210B is also magnetically recorded. The site information YJH2 magnetically recorded on the recording tag 210B can be read as follows using a reading device such as the information reading device 7 used in the first embodiment described above. First, while generating an alternating magnetic field of a frequency HZ corresponding to the magnetic pattern MQ1 of the recording tag 210A of the foundation stone unit 203 through the reading device in the residence site 201, the interior of the residence site 201 is It moves in a form to search for the unit 203. ). By the movement, it enters from the foundation stone unit 203, and hence from the recording tag 210A of the foundation stone unit 203, within the information transmission distance (for example, 1 to 1.5 m) of the recording tag 210A. Then, since an AC magnetic field having a frequency HZ corresponding to the magnetic pattern MQ1 is applied to the recording tag 210A with a magnitude capable of resonant vibration, a magnetic field is generated by resonant vibration. The magnetic field generated in this way is received by the reader, so that the operator (not shown) moves the base stone unit 203 near the current receiving position (that is, within 1 to 1.5 m from the transmitting / receiving antenna of the reader). Assuming that it is an existing search range (this is an operation of reading the search information YJH1 of the recording tag 210A), it moves in the search range with the reading device to search for the foundation stone unit 203.
[0052]
Along with the movement, the reading device generates an alternating magnetic field at a predetermined frequency YH1 (that is, a frequency equivalent to the mechanical resonance frequency of the recording tag 210B) in a form of a blow, and thereafter, during a predetermined time interval YT1, After stopping the generation of the magnetic field, and then generating an alternating magnetic field of a predetermined frequency YH2 (ie, twice the frequency of the frequency YH1) in the form of a blow, the generation of the magnetic field is stopped for a time interval YT1, Thereafter, an alternating magnetic field of a predetermined frequency YH3 (that is, a frequency three times as high as the frequency YH1) is generated in a form of a blow, and then the generation of the magnetic field is stopped for a time interval YT2. , YH6,... (That is, an overtone frequency of the frequency YH1) is generated in a single shot at intervals of the time interval YT1. The operation of generating the AC magnetic field of these frequencies YH4, YH5, YH6,... And the movement within the search range allow information transmission of the recording tag 210B from the foundation stone unit 203, and hence from the foundation stone unit 203. Enter within a distance (for example, about 20 cm). Then, an alternating magnetic field of the frequency YH1, YH2, YH3,... To be swept is sequentially applied to the recording tag 210B in such a size that resonance oscillation is possible, so that the recording tag 210B corresponds to the magnetic pattern MQ2. When a magnetic field having a specific frequency YHn (several frequencies among the frequencies YH1, YH2, YH3,...) Is applied, a magnetic field is generated by resonant vibration due to magneto-mechanical coupling action. The magnetic field generated in this way is received by the reading device, and the site information YJH2 of the recording tag 210B is read based on the receiving state.
[0053]
The search information YJH1 and the site information YJH2 from the recording tags 210A and 210B are read not only when there is no obstacle on the side of the engraving surface 205a of the foundation stone unit 203 but also when engraving the foundation stone unit 203. This can be easily performed even when there is an obstacle on the surface 205a side. For example, a building (not shown) of the residential site 201 is destroyed by an earthquake, a war, or the like, and rubble 260 of the destroyed building is, as shown by a two-dot chain line in FIG. When the debris 260 is deposited so as to cover the engraved surface 205a side of the debris 203, the debris 260 transmits a magnetic field such as concrete or wood. Therefore, when the debris 260 is extremely thick from the ground (for example, 1 m Except for the case of exceeding, the magnetic field can be exchanged between the position above the rubble 260 and the recording tag 210A located below the rubble 260. In other words, it is installed even when it is difficult to visually determine the correspondence of the true owner to each land due to the destruction of a building (not shown) or the accumulation of rubble 260. By reading the search information YJH1 from the recording tag 210A of the foundation stone unit 203, the search area where the foundation stone unit 203 exists is found, and the rubble 260 in the search area is removed (the thickness of the rubble 260 is less than 20 cm). In this case, it is not necessary to remove the debris 260 because the magnetic field can be exchanged between the upper part of the debris 260 and the recording tag 210B), and the recording is performed again while searching for the foundation stone unit 203 within the search range. By reading the site information YJH2 from the tag 210B, the correspondence of the true owner to each land can be easily determined. Further, the range of land owned by each owner can be easily determined by reading the site information YJH2 from the recording tag 210B. In addition, even if the obstacle existing on the side of the marking surface 205a of the foundation stone unit 203 is other than the rubble 260 such as concrete or wood, the thickness of the obstacle from the ground does not exceed a predetermined thickness, and If the object transmits electromagnetic waves (for example, a layer of ash deposited by volcanic eruption or a layer of sediment deposited by flood), the site information YJH2 can be easily read in the same manner as in the example of the rubble 260 described above. I can do it.
[0054]
Further, when the owner of the housing site 201 changes or the three-dimensional position of the housing site 201 changes (that is, the housing site 201 is reduced or enlarged), the contents stamped on the cornerstone unit 203 Further, the site information YJH2 recorded in the recording tag 210B can be changed. The change of the site information YJH2 is easily performed by a method similar to the method of updating and recording the information of the storage element 5B described in the first embodiment.
[0055]
In the above-described embodiment, the display unit of the installation position information marking foundation stone unit is configured in the form of the stamped surface 205a, and the site topography display unit of the installation position information marking foundation stone unit is configured in the form of the site shape display area 205b. The display unit of the installation base information marking foundation stone unit may be formed in any form as long as it can display the three-dimensional position of the housing site 201, etc., the owner's name, or the construction start date and time. The site topography display section may be formed in any shape as long as the shape YKJ1 or the like of the housing site 201 can be displayed in a similar reduced form. For example, as shown in FIG. 8, the engraved surface 205a may be formed in a shape YJK2 having a horizontal cross section similar to the shape YKJ1 of the house premises 201, and the entire engraved surface 205a having the shape YJK2 may be used as the site shape display area 205b. .
[0056]
Further, in the above-described embodiment, the foundation stone unit 203 is installed so as to be buried in the ground 202, but the foundation stone unit 203 is installed in a stable manner with respect to the housing site 201. For example, it may be installed on a foundation of a building (not shown) in such a manner that the holding member 207 side of the main body 205 is joined and fixed.
[0057]
In each of the above-described embodiments, the first recording member and the second recording member are configured in the form of the storage elements 5A and 5B or the recording tags 210A and 210B, that is, in the form of the magnetic identification body. The second recording member may be made of a material other than the magnetic discriminator. For example, the first and second recording members may be configured in the form of an integrated circuit.
[0058]
【The invention's effect】
As described above, the first invention of the present invention has a pile main body 2 that can be installed on the ground such as the ground 62 and 202, an installation main body such as the main body 205, and an element storage space 12a inside the installation main body. , A recording member holding space such as a tag storage space 209, and a storage element 5A capable of reading information from the outside in a non-contact manner in the recording member holding space; a first recording member and a storage element 5B such as a recording tag 210A; A second recording member such as a tag 210B is provided in a combined form, the information transmission distance of the first recording member is made longer than the information transmission distance of the second recording member, and the information recording capacity of the second recording member is increased. Installation position information indicator configured to be larger than the information recording capacity of the first recording memberIn the first recording member, search information for searching for the installation position information indicator is recorded, and in the second recording member, the installation position information of the installation position information indicator Is recorded as a feature,After the installation position information indicator according to the present invention is installed on the ground or the like, in order to read information recorded on the first recording member and the second recording member of the installation position information indicator, first, the information reading device 7 or the like is used. The information recorded on the first recording member is read out of the installation body in a non-contact manner via a reading device. While reading, confirm that the installation position information indicator is present near the position of the reading device that performed the reading, and then, near the position where the reading was performed, that is, the position where the installation position information indicator exists. In the vicinity, the information recorded on the second recording member is read from outside the installation body in a non-contact manner via the reading device. As described above, the information transmission distance of the first recording member is as long as possible, and thus the information transmission range of the first recording member is as wide as possible, and the position of the installation position information indicator is unknown. The task of reading the information of the first recording member of the installation position information indicator while searching for the installation position information indicator in a wide range becomes as easy as possible. Further, when reading the information of the second recording member after reading the information of the first recording member, when the operation of reading the information of the first recording member is centered, While searching for the installation position information indicator within the same size range as the information transmission range, the information of the second recording member of the installation position information indicator is read. That is, the information transmission distance of the second recording member is shorter than the information transmission distance of the first recording member, but the range searched for reading the information of the second recording member is the information transmission distance of the first recording member. And the work of reading the information of the second recording member becomes as easy as possible. That is, the reading of the information on the first and second recording members can be easily confirmed. In addition, as described above, by sequentially reading from the first recording member having the largest possible information transmission range, the installation position information indicator is searched in a form in which the search range is sequentially narrowed, so that the position of the installation position information indicator can be easily determined. Can be found in Furthermore, since the information recorded in the first and second recording members can be read in a non-contact manner with respect to the installation main body embedded and installed, the installation main body embedded and installed on the ground is buried with earth and sand or fallen leaves. Even in the case where it is closed, or in the case where obstacles such as rubble of buildings destroyed by earthquakes or wars, etc., cover the installed main body from the ground, read and confirm the information. Can be easily performed. As described above, since the information recording capacity of the second recording member is as large as possible, the installation position information indicator can have as much information as possible, which is convenient. Further, since the first and second recording members are provided so as to be accommodated in the recording member holding space in the installation main body, there is little possibility that these recording members are lost due to fire or mischief, and they are protected from wind and rain, so that they can be used for a long time. Will be possible.
[0059]
Also,The first recording member records search information, and the second recording member records installation position information of the installation position information indicator.The first recording memberBy reading the search information, the installation position information of the second recording member is easily read while searching for the installation position information indicator in a form in which the search range of the installation position information indicator is narrowed. Further, the information such as the installation position information for the installation position information indicator can be easily recognized and confirmed without having to compare the topographic map or the already created survey drawing with the installation body.
[0060]
In the present invention,twoThe invention has an installation main body such as a pile main body 2, a main body 205, and the like. Around the installation main body, a side surface such as a side surface 6, 204 that is buried in the ground such as the ground 62, 202 and can be in contact with the ground. A recording element holding space such as an element storage space 12a and a tag storage space 209 is formed inside the installation main body, and a storage element 5A and a recording tag which can read information from the outside in a non-contact manner in the recording member holding space. The first recording member such as 210A and the second recording member such as the storage element 5B and the recording tag 210B are provided in combination, and the information transmission distance of the first recording member is longer than the information transmission distance of the second recording member. And the information recording capacity of the second recording member is larger than the information recording capacity of the first recording member.The installation position information indicator configured, wherein the first recording member has recorded therein search information for performing a search for the installation position information indicator, and the second recording member has the installation position information. It is characterized in that the installation position information of the information indicator is recordedTherefore, similarly to the case of the first invention, since the position of the installation position information indicator is unknown, while searching for the installation position information indicator in a wide range, the first recording member of the installation position information indicator is The operation of reading the information is made as easy as possible, and the search range for reading the information of the second recording member is made as narrow as possible, so that the operation of reading the information of the second recording member is made as easy as possible. In addition, since the installation position information indicator is searched in such a manner that the search range is sequentially narrowed, the position of the installation position information indicator can be easily found. Furthermore, even when the installation body buried in the ground is buried with earth and sand or fallen leaves, obstacles such as rubble of buildings destroyed by earthquakes or wars are installed. Even when the installation main body is covered from the ground, the reading of the information can be easily confirmed. As described above, since the information recording capacity of the second recording member is as large as possible, the installation position information indicator can have as much information as possible, which is convenient. Further, since the first and second recording members are provided so as to be accommodated in the recording member holding space in the installation main body, there is little possibility that these recording members are lost due to fire or mischief, and they are protected from wind and rain, so that they can be used for a long time. Will be possible.
[0061]
In the present inventionThe third invention is the second inventionIn the installation position information indicator according to the above, the cover such as the cover 3 and the cover member 206 is provided on the installation body so that the recording member holding space can be opened and closed. It is housed in a recording member holding space in the main body, and is provided so as to be closed from the outside by a lid. Therefore, in addition to the effect of the third aspect, the recording member is less likely to disappear due to fire or mischief, and is protected from wind and rain, so that long-term use is possible. Further, by opening and closing the lid, the recording member holding space can be opened and closed with respect to the outside of the installation main body. Therefore, with the recording member holding space opened to the outside of the installation main body, work such as replacement and maintenance of the first and second recording members or updating of information on the first and second recording members can be performed. These operations are facilitated and convenient.
[0062]
In the present inventionThe fourth invention is the second inventionIn the installation position information indicator according to the present invention, since the display unit such as the hub 3e and the engraved surface 205a is formed at a location other than the side surface of the installation body (for example, the top surface or the location exposed on the ground), the installation location information is displayed. When the indicator is buried in the ground, the display unit is placed on the ground. That is, in addition to the effect of the second aspect, it is convenient that the installation position of the installation position information indicator can be immediately recognized and confirmed by visually observing the display unit.
[0063]
In the present inventionThe fifth invention is the second inventionIn the installation position information indicator according to the first recording member and the second recording member, since it was provided in a form that can be taken out from the recording member holding space,Second inventionIn addition to the effects described above, the first and second recording members are taken out of the recording member holding space and replaced with another recording member, or the maintenance of these first and second recording members is performed, or the first and second recording members are maintained. It is easy to update the information of the two recording members, which is convenient.
[0064]
In the present inventionThe sixth invention is the second inventionIn the installation position information indicator according to, the first recording member and the second recording member is a magnetic identification body that generates an electromagnetic wave of a specific frequency when a magnetic field is added from the outside, so the first and second recording members Reading of recorded information can be performed via electromagnetic waves. That is,Second inventionIn addition to the effect of the first and second recording members, any obstacle or the like that covers the installation body buried in the ground is a substance that transmits electromagnetic waves. Information can be easily read and confirmed. Further, since reading of information is performed through electromagnetic waves having a specific frequency, it is easy to confirm the identity between the read information and the information to be read (that is, it is easy to eliminate noise), and the information can be easily read. The reliability in reading is improved. Furthermore, even when the magnetic discriminator has a property that the information recording capacity is smaller as the information transmission distance is longer, the first recording member having the information transmission distance as long as possible, and the second recording member having the information recording capacity as long as possible. By adopting a combination of recording members, the information to be provided on the installation position information indicator can be increased as much as possible, and the transmission distance (transmission range) of the information can be made as long as possible (as wide as possible), which is convenient. .
[0065]
In the present inventionThe seventh invention is the second inventionAccording to the installation position information indicator, the first recording member or the second recording member records information in a rewritable manner, so if there is a change in the information related to the installation position information indicator, the first recording member or the second recording member. Alternatively, the information recorded on the second recording member is rewritten. That is,Second inventionIn addition to the above-mentioned effects, it is not necessary to replace the entire installation position information indicator, which saves labor. Further, since it is not necessary to replace the first and second recording members with different ones, it is sufficient if there is one set of the first and second recording members for one installation position information indicator. That is, it is convenient because the consumption of members is reduced as much as possible.
[0066]
In the present inventionThe eighth invention is the second inventionAnd a reading device such as an information reading device 7 capable of reading the information recorded on the first recording member and the second recording member in the installation position information indicator in a non-contact manner. as well asSecond inventionAs in the case of (1), the information of the first and second recording members can be easily read, and the position of the installation position information indicator can be easily found.
[0067]
In the present inventionNinth inventionHas an installation main body such as a pile main body 2, and has a pile driving point indicating section such as a pile driving point indicating section 11 provided on the installation main body in such a manner that the tip of the installation main body protrudes, and an element is housed inside the installation main body. A recording member holding space such as the space 12a is formed, and a first recording member such as a storage element 5A and a second recording member such as a storage element 5B capable of reading information from outside without contact are combined in the recording member holding space. Provided, the information transmission distance of the first recording member is longer than the information transmission distance of the second recording member, and the information recording capacity of the second recording member is larger than the information recording capacity of the first recording member. ConfigurationThe installation position information indicating pile, wherein the first recording member has recorded therein search information for searching for the installation position information indicating pile, and the second recording member has the installation position information. The feature is that the installation position information of the marking pile is recordedSince the position of the installation position information indicating pile is unknown, it is as easy as possible to read the information of the first recording member of the installation position information indicating pile while searching for the installation position information indicating pile in a wide range. In other words, the search range for reading the information of the second recording member is as narrow as possible, so that the operation of reading the information of the second recording member becomes as easy as possible. In addition, since the installation position information indicating pile is searched in a form in which the search range is sequentially narrowed, the position of the installation position information indicating pile can be easily found. Further, even in the case where the installation main body that is cast on the ground or the like is buried with earth and sand, fallen leaves, or the like, it is possible to easily read and confirm the information of the first and second recording members. As described above, since the information recording capacity of the second recording member is as large as possible, the installation position information indicating pile can have as much information as possible, which is convenient. Further, since the first and second recording members are provided so as to be accommodated in the recording member holding space in the installation main body, there is little possibility that these recording members are lost due to fire or mischief, and they are protected from wind and rain, so that they can be used for a long time. Will be possible.
[0068]
In the present inventionThe tenth invention is the ninth inventionIn the installation position information indicating pile according to the present invention, a lid such as the lid 3 is provided on the installation main body so that the recording member holding space can be opened and closed.Ninth inventionIn addition to the effect of the above, the first or second recording member housed in the recording member holding space is taken out from the recording member holding space in a state where the installation main body is driven into the ground, and the recording member is Instead of the first or second recording member taken out of the holding space, a recording member stored with information different from the information stored in the first or second recording member taken out of the recording member holding space, It can be stored in the recording member holding space. Therefore, in accordance with the construction procedure, etc., the contents of the work changes are stored in accordance with the change of the work contents due to the influence of weather conditions such as a typhoon or the storage of the recording member storing the information of the work to be performed next. It is very easy to update the information stored in the installation main body, for example, by storing the recording member storing the information such as the information in the installation main body.
[0069]
In the present inventionEleventh inventionHas an installation main body such as a main body 205 on which a display unit such as an engraved surface 205a is formed, forms a recording member holding space such as a tag storage space 209 inside the installation main body, and has an external A first recording member such as a recording tag 210A capable of reading information in a non-contact manner from a second recording member such as a recording tag 210B is provided in a combined form, and an information transmission distance of the first recording member is set to Longer than the information transmission distance, and the information recording capacity of the second recording member is larger than the information recording capacity of the first recording member.In the obtained installation position information marking foundation stone unit, search information for performing a search for the installation position information marking foundation stone unit is recorded on the first recording member, and the installation information is recorded on the second recording member. Position information indication Site information about the site where the foundation stone unit was installed is recorded.Since the position of the installation position information indicating foundation stone unit is unknown, the information of the first recording member of the installation position information indicating foundation stone unit is searched while searching the installation position information indicating foundation stone unit in a wide range. The reading operation is as easy as possible, and the search range for reading the information of the second recording member is as narrow as possible. Therefore, the operation of reading the information of the second recording member is also as easy as possible. Further, since the installation position information indicating foundation stone unit is searched in a form in which the search range is sequentially narrowed, the position of the installation position information indicating foundation stone unit can be easily found. That is, even when an obstacle such as rubble of a building whose installation body buried and installed in the ground is destroyed by an earthquake or a war obscures the installed installation body from the ground, the information is read. Confirmation can be easily performed. As described above, since the information recording capacity of the second recording member is as large as possible, the installation position information indicator can have as much information as possible, which is convenient. Further, since the first and second recording members are provided so as to be accommodated in the recording member holding space in the installation main body, there is little possibility that these recording members are lost due to fire or mischief, and they are protected from wind and rain, so that they can be used for a long time. Will be possible.
[0070]
In the present inventionThe twelfth invention is the eleventh inventionIn the setting position information marking foundation stone unit according to the above, since the display unit is provided with a site topography display unit such as a site shape display area 205b,Eleventh inventionIn addition to the effect of the above, since the terrain of the site can be displayed on the site terrain display section, in the installation position information indicating foundation stone unit, the property as a symbol on the site where the installation is performed is improved. In other words, the monumental and decorative purposes of the installation position information marking foundation stone unit are further improved, which is convenient.
[Brief description of the drawings]
FIG. 1 is a diagram showing a setting pile which is an example of an installation position information indicating pile according to the present invention, and an information reading apparatus which reads the pile information of the setting pile.
FIG. 2 is a sectional view of the driving pile shown in FIG. 1;
FIG. 3 is a diagram illustrating a storage element housed in a driving pile illustrated in FIG. 1;
FIG. 4 is a view showing a state in which a plurality of driving piles shown in FIG. 1 are driven at a construction site.
FIG. 5 is a diagram showing an information recording device used when recording pile information in the storage element shown in FIG. 3;
6 (a) is a vertical sectional view showing a foundation stone unit which is an example of the installation position information indicating foundation stone unit according to the present invention, and FIG. 6 (b) is a vertical sectional view showing the foundation stone unit shown in FIG. 6 (a). It is the top view which showed the display part of the cornerstone unit.
FIG. 7 is a plan view of a residential site where the foundation stone unit shown in FIG. 6A is installed.
FIG. 8 is a plan view showing another example of the installation position information marking foundation stone unit shown in FIG. 6A among the installation position information indication foundation stone units according to the present invention.
[Explanation of symbols]
1 ... Installation position information indicator, Installation position information indicating pile (Pile for placing)
2. Installation body (pile body)
3 ... Lid
3e Display part (hub part)
5A: First recording member (memory element)
5B: second recording member (memory element)
6 ... side
7 ... Reading device (information reading device)
11 Pile driving point indicating section
12a Recording member holding space (element storage space)
62 ... ground
70 ... Installation position information marking device (pile information marking device)
202 ... ground
203 …… Installation location information indicator, installation location information marking foundation stone unit (foundation stone unit)
204 ... side
205: Installation body (main body)
205a: Display unit (engraved surface)
205b …… Site topography display area (Site shape display area)
206 ... lid (lid member)
209: Recording member holding space (tag storage space)
210A: First recording member (recording tag)
210B ... second recording member (recording tag)

Claims (12)

Has an installation body that can be installed on the ground,
Forming a recording member holding space inside the installation body,
In the recording member holding space, provided in combination with a first recording member and a second recording member capable of reading information from outside without contact,
The information transmission distance of the first recording member is longer than the information transmission distance of the second recording member,
An installation position information indicator configured to have an information recording capacity of the second recording member larger than an information recording capacity of the first recording member ,
In the first recording member, search information for performing a search for the installation position information indicator is recorded,
The installation position information indicator, wherein the installation position information of the installation position information indicator is recorded on the second recording member . Has an installation body,
Around the installation body, buried in the ground, forming a side surface that can be in contact with the ground,
Forming a recording member holding space inside the installation body,
In the recording member holding space, provided in combination with a first recording member and a second recording member capable of reading information from outside without contact,
The information transmission distance of the first recording member is longer than the information transmission distance of the second recording member,
An installation position information indicator configured to have an information recording capacity of the second recording member larger than an information recording capacity of the first recording member ,
In the first recording member, search information for performing a search for the installation position information indicator is recorded,
The installation position information indicator, wherein the installation position information of the installation position information indicator is recorded on the second recording member. The installation position information indicator according to claim 2 , wherein a lid is provided on the installation body so that the recording member holding space can be opened and closed. The installation position information indicator according to claim 2 , wherein a display unit is formed at a position other than the side surface of the installation main body. The installation position information indicator according to claim 2, wherein the first recording member and the second recording member are provided so as to be able to be taken out of the recording member holding space. The installation position information indicator according to claim 2, wherein the first recording member and the second recording member are magnetic discriminators that generate an electromagnetic wave having a specific frequency when a magnetic field is externally applied. The installation position information indicator according to claim 2, wherein the first recording member or the second recording member records information in a rewritable manner. 3. An installation position information indicating device comprising the installation position information indicator according to claim 2 , and a reading device capable of reading information recorded on a first recording member and a second recording member in the installation position information indicator in a non-contact manner. Has an installation body,
A stake point indicating unit is provided on the installation main body, with a tip of the installation main body protruding,
Forming a recording member holding space inside the installation body,
In the recording member holding space, provided in combination with a first recording member and a second recording member capable of reading information from outside without contact,
The information transmission distance of the first recording member is longer than the information transmission distance of the second recording member,
An installation position information indicating pile configured to have an information recording capacity of the second recording member larger than an information recording capacity of the first recording member ,
In the first recording member, search information for searching for the installation position information indicating pile is recorded ,
The installation position information indicating device, wherein the installation position information of the installation position information indicating pile is recorded on the second recording member. 10. The installation position information indicating pile according to claim 9 , wherein a lid is provided on the installation main body so as to open and close the recording member holding space. Having an installation body on which a display unit is formed,
Forming a recording member holding space inside the installation main body,
In the recording member holding space, provided in combination with a first recording member and a second recording member capable of reading information from outside without contact,
The information transmission distance of the first recording member is longer than the information transmission distance of the second recording member,
In the installation position information indicating foundation stone unit configured with the information recording capacity of the second recording member larger than the information recording capacity of the first recording member ,
In the first recording member, search information for performing a search for the installation position information marking foundation stone unit is recorded,
The installation position information indicating foundation stone unit, wherein site information on the site where the installation position information indicating foundation stone unit is installed is recorded in the second recording member. The installation position information marking foundation stone unit according to claim 11, wherein a site terrain display unit is provided on the display unit.

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