NL1030390C2 - Method for preventing damage to pipes, pipes, cables and the like present in the ground as a result of soil agitations. - Google Patents

Description

! j

METHOD FOR PREVENTING DAMAGE TO PIPES, PIPES, CABLES AND THE LIKE IN THE GROUND THROUGH GROUNDS

The invention relates to a method for preventing damage to pipes, pipes, cables and the like present in the ground as a result of soil agitations, wherein use is made of. detectors for detecting at least the position of pipes, pipes, cables and the like present at soil rudder locations, and wherein the soil agitations are subsequently carried out at the rudder locations on the basis of detection results generated by the detectors. It is noted that in the context of the invention a soil agitation is understood to mean any rework of the soil, as is particularly the case with excavation work, dredging, drainage, harvesting of for instance trees and the like, etc. Furthermore, in the context of the invention, pipes, pipes, cables and the like are understood in particular so-called utility pipes, such as in particular electricity, water and gas pipes, telephone and TV cables, without wanting to introduce any limitation therein, 25 so that all kinds of tubes can also be considered.

Such a method is generally known. In the known method, detectors of the type described in, for example, U.S. Pat. Nos. 5,194,812 30 (Yokoi) and 2005/0156776 (Waite) and the British patent publication 2 220 071 (Flowerdew) applied to gain insight into the local underground infrastructure, that is, the locations of underground pipes, pipes, cables and the like . Through the locations 1030390! 2 to be marked above ground before, for example, excavation work, for example with the aid of picket posts, the aforementioned local underground infrastructure can be taken into account during the excavation work. Thus, damage to pipes, pipes, cables and the like present in the ground as a result of the excavation work can be prevented as much as possible.

A drawback of the known method is that the aforementioned detectors are not used as standard in practice. The use of the detectors costs time and therefore money, while the purchase of the detectors requires an investment. Moreover, most soil stirrers are insured against possible damage to underground pipes, pipes, cables and the like as a result of soil excavations performed by them. In the case of damage, the excavator will then only bear a relatively small amount (the so-called "deductible"). It goes without saying that refraining from using the detectors can lead to great material damage and even result in the loss of human life, for example if a natural gas pipeline is damaged during excavation work and natural gas released explodes.

It is the object of the invention to improve the known method, in particular in the sense that soil stirrers are stimulated to use the aforementioned detectors as standard in practice.

To this end, a method according to the invention of the type mentioned in the preamble has the special feature that the detectors comprise transmission means, with which detection information is transferred to a database at a distance of 1030390 I 3 and stored therein. Such detection information contains in any case information about the use of the detectors, that is to say information from which it can at least be deduced that the detectors have actually been used, for instance detection information showing that the detectors are switched on and / or off. (so-called "on / off information"). Preferably, the detection information also contains data about detection date and / or detection time point and / or excavation site 10 and / or excavation site identification. This makes it possible, for example in the case of damage to underground pipes, pipes, cables and the like as a result of soil agitators carried out by a excavator, to subsequently check on the basis of the database whether that excavator 15 has actually used the detector (s) . The database shows in particular whether excavation contractors have used the aforementioned detectors "preventively" prior to their excavations. Only in the event that the database reveals that the preventive use of the detector (s) has taken place, can the excavator claim, for example, any compensation for the damage suffered by his insurance company. Preferably, there is a central database, so that all detection information in an area, region or country is centrally transferred to the database and stored therein. The detection information is in particular automatically generated and transmitted, that is, it does not require separate manual operations. The automatic generation and transfer of the detection information implies that it is objective, so that a total insight is obtained in the aforementioned prevention, without the possibility of manipulation thereof. It is important that the detection information with regard to 1030390 4 can easily be made transparent by any basic agitation from the database, for example on the basis of a limited number of parameters.

It is noted that the database is at a (large) distance from the detection locations and the rudder locations.

In a preferred embodiment of a method according to the invention, the detection information 10 is wirelessly sent from the detectors to the database by the transfer means. Preferably, the detection information is transmitted by the transmission means using GSM ("Global System for Mobile Communication"), GPRS ("General Packet Radio Services") or UMTS ("Universal Mobile Telephone System") to the database. GPS ("Global Positioning System") or DGPS ("Differential Global Positioning System") is used to determine a detection location in the detection information, which detection location is subsequently applied to the database is sent.

In a further preferred embodiment of a method according to the invention, the detection information is sent by the transmission means via the Internet or the TV cable from the detectors to the database.

In a further preferred embodiment of a method according to the invention, the transferring means comprise data carriers on which the detection information is stored, wherein the data carriers are sent to the database. The data carriers are, for example, formed by "compac discs" or "USB sticks". In another preferred variant, the detection information is stored in a fixed memory of the detector, the fixed memory being subsequently read out and the detection information being sent to the database and stored therein.

In a further preferred embodiment of a method according to the invention, the detection information comprises at least one of the data consisting of the group of: (a) position 10 along the earth's surface of pipes, pipes, cables and the like present in the ground, (b ) depth of pipes, pipes, cables and the like present in the ground, (c) type of pipes, pipes, cables and the like present in the ground, (d) detection date, (e) detection time, (f) detection location, g) soil rudder location, (h) soil stirrer and (i) lessee of detectors. In other words, the detection information may include the detection results.

In a further preferred embodiment of a method according to the invention, the database is managed by or on behalf of a user. In particular, the database is consulted electronically by or on behalf of the remote user. Such a user is, for example, an insurance company or an insurance intermediary or a contractor.

In a further preferred embodiment of a method according to the invention, the detection information stored in the database is used by or on behalf of the user to compile a soil rudder history and / or risk profile of a soil rudder. A rudder history of a ground rudder indicates detection information in the past at one or more rudder locations. In addition to or instead of 1030390 6 thereof, the detection information stored in the database is processed into a geographical map of pipes, pipes, cables and the like present in the ground. In addition or instead, the detection information stored in the database 5 can be processed into a geographical map of detection locations.

The invention also relates to a detector for use in a method according to the invention for detecting at least a position of pipes, pipes, cables and the like present at a rudder location in order to prevent damage thereto due to of soil agitations in the soil, with the special feature that the detector comprises transfer means, with which detection information can be transferred to a database for storage therein. The transmission means in particular contain transmission means for sending the detection information to the database, preferably automatically. The detector further comprises means for generating or not automatically generating detection information.

In a preferred embodiment of a detector according to the invention, the transmission means comprise memory means for storing the detection information therein. The detection information is then preferably automatically stored in this memory of the detector, the memory being subsequently read out and the detection information being sent to the database and stored therein.

The invention will be further elucidated with reference to figures shown in a drawing, in which figure 303090 shows - diagrammatic and perspective view of a detector, such as can be used in a method according to the invention; figure 2 represents a schematic printout from a database according to the invention; and - figure 3 shows a flow chart of various steps in a method according to the invention.

Figure 1 distinguishes a detector 1 for detecting utility lines and the like present at an excavation location. The detector includes, as usual, an internal receiver (not shown) for receiving signals reflected from utility lines and the like located in the ground. Such signals were originally originally sent in the direction of the ground from a separate source (not shown). On the basis of the detection results, the excavation work can then be performed more carefully. Detection information is transmitted wirelessly from the detector 1 to a database, using GPRS ("General Packet Radio Services"). For this purpose, the detector 1 is provided with an integrated GPRS module 2. The detection information is recorded in a memory of the GPRS module 2 prior to transmission.

As stated, Figure 2 shows a schematic print-out 3 from the aforementioned database. This printout forms a "prevention overview" of an insurance company, in which the aforementioned detection information is displayed. In particular, it specifies which performer of 1030390 8 the excavation work, namely the insured De Groot B.V. in Zeist, in which place (for example Leersum), in which street (for example England), on which date and at which time (for example January 3, 2004 from 08.07 am to 5.25 am and 8.23 pm) detectors have been used in advance and with what result (for example quality "good"). Quality "good" in this context may mean that there is a minimum detection duration in relation to the size of the detection location. As stated, the detection information is automatically generated with the aid of GPRS and sent to the database.

Figure 3 relates to a flow chart showing the generation and transmission of detection if-standard by a module coupled in or to the detector of Figure 1.

The invention is not limited to the embodiment shown, but also extends to other preferred variants that fall within the scope of the appended claims.

! 1 03 0390

Claims (15)

Method for preventing damage to pipes, pipes, cables and the like present in the ground as a result of soil agitations, wherein use is made of detectors for detecting at least the position of locally present in the ground at soil rudder locations pipes, pipes, cables and the like, and wherein the earth agitations are subsequently carried out on the basis of detection results generated by the detectors at the earth agitator locations, characterized in that the detectors contain transfer means, with which detection information is transferred to an i remote database of the rudder locations and stored therein. Method according to claim 1, wherein the detection information is transmitted wirelessly from the detectors to the database by the transfer means. 20 3. Method as claimed in claim 2, wherein the detection information by the transferring means using GSM ("Global System for Mobile Communication"), GPRS ("General Packet Radio Services") or UMTS ("Universal Mobile Telephone System") sent to the database. The method of claim 1, wherein the detection information is sent from the detectors to the database via the Internet 30 or the TV cable. 1030390 5. Method as claimed in any of the foregoing claims 1-4, wherein the transferring means comprise data carriers on which the detection information is stored, and wherein the data carriers are sent to the database. 6. Method as claimed in any of the foregoing claims 1 to 5, wherein the detection information comprises at least one of the data consisting of the group of: (a) position along the earth surface of pipes, pipes, cables present in the ground and the like, (b) depth of pipes, pipes, cables, and cables present in the ground; such, (c) type of pipes present in the ground, | pipes, cables and the like, (d) detection date, (e) detection time, (f) detection location, (g) soil stirring location, (h) soil stirrer (i) lessor of detectors. 7. Method as claimed in claim 6, wherein the detection location is determined with the aid of GPS ("Global Positioning System") or DGPS ("Differential Global Positioning System"). 8. Method as claimed in any of the foregoing claims 1 to 7, wherein the database is managed by or on behalf of a user. j The method of claim 8, wherein the database is electronically accessed by or on behalf of the remote user. 30 A method according to any one of the preceding claims 1 to 9, wherein the detection information stored in the database is used by or on behalf of the user to process 1030390. prepare a soil rudder history and / or risk profile of a soil rudder. Method according to one of the preceding claims 1 to 5, wherein the detection information stored in the database is processed into a geographical map of pipes, pipes, cables and the like present in the ground. 10 Method according to any one of the preceding claims 1 to 11, wherein the detection information stored in the database is processed into a geographical map of detection locations. 15 Detector for use in a method according to any one of the preceding claims 1 to 12, for detecting at least the position of pipes, pipes, cables and the like present at a rudder location in order to prevent damage thereto As a result of soil agitations in the soil, characterized in that the detector comprises transfer means, with which detection information can be transferred to a database for storage therein. 25 Detector according to claim 13, wherein the transferring means comprise transmitting means for sending the detection information to the database. Detector according to claim 13 or 14, wherein the transmission means comprise memory means for storing the detection information therein. 1030390