EP3237842A1

EP3237842A1 - Method for detecting a measurement region in a substrate

Info

Publication number: EP3237842A1
Application number: EP15822934.4A
Authority: EP
Inventors: Torsten Gogolla; Dietmar Schoenbeck; Sascha Korl; Jens Neumann
Original assignee: Hilti AG
Current assignee: Hilti AG
Priority date: 2014-12-23
Filing date: 2015-12-22
Publication date: 2017-11-01
Also published as: RU2682850C2; CN107110649A; JP2018508750A; RU2017126248A; WO2016102570A1; EP3037780A1; US20170370720A1; RU2017126248A3

Abstract

The invention relates to a method for detecting a measurement region in a substrate (18), using an arrangement (10) that comprises a detector device (11) having a detection field, a localisation device (12), and a control device (13), in which: - in a first step a measurement region (21) to be detected which has a start position and coordinates is selected, the dimensions of said measurement region to be detected being greater than the detection field of the detector device (11), - in a second step an actual position (P_akt) of said detector device (11) is determined using the localisation device (12), - in a third step an actual detection field is determined from the actual position (P_akt) of the detector device (11), by means of the control device (13), and - in a fourth step the start position of the measurement region to be detected is compared with the actual detection field, by said control device (13).

Description

Method for detecting a measuring range in a background Technical field

The present invention relates to a method for detecting a measuring range in a substrate according to the preamble of claim 1.

State of the art

From DE 20 2010 016 564 U1 a device for detecting objects in a subsoil is known. The device comprises a detector device, a localization device and a control device. The operator moves the detector device across the ground, the detector device performing a series of measurements. The localization device regularly determines the current position of the detector device during the measuring operation. The measurement data of the detector device and the position data of the localization device are transmitted to the control device, which assigns and stores the measurement and position data. The measurement and location data can be further processed by the control device and displayed for example on a screen.

Presentation of the invention

The object of the present invention is the development of a method for detecting a measuring range in a background.

This object is achieved according to the invention by the features of independent claim 1 in the method mentioned above for detecting a measuring range in a substrate. Advantageous developments are specified in the dependent claims. According to the invention, the method for detecting a measuring region in a substrate by means of a device which has a detector device with a detection field, a localization device and a control device, is characterized in that: ^■ in a first step a to be detected measuring range with a starting position and target coordinates is selected, the dimensions of the to be detected measurement range are larger than the detection field of the detector device,

^■ in a second step, by means of the localization device, a current position of the detector device is determined,

^■ in a third step by the control device from the current position of the detector device, a current detection field is determined and

^■ the start position to be detected measurement range are compared by the control device with the current detection area of the detector device in a fourth step.

The method according to the invention is concerned with detecting a measuring range in a background and detecting objects embedded in the ground. The term "object" encompasses all elements that are arranged in a subfloor Examples of objects which are determined by means of the detector device are power lines, broadcasting lines, conduits, water pipes, heating pipes and reinforcing iron.

If the start position is arranged outside the current detection field, an adjustment instruction for the detector device is calculated by the control device from the current position of the detector device and the start position of the measurement range to be detected and displayed on a display device. The adjustment instruction instructs the operator how to move the detector device over the ground.

If the starting position of the measuring range to be detected is arranged within the current detection field, the control device issues a control command to carry out at least one measurement in the background to the detector device. The method has the advantage that the triggering of the measurements is controlled by the control device.

If the starting position of the measuring range to be detected is arranged within the current detection field, an operating instruction to stop the detector device is produced by the control device and displayed on a display device. Particularly preferably, the control device issues a control command to perform at least one measurement in the ground to the detector device when the start position of the measurement range to be detected is arranged within the current detection field and does not move the detector device. Particularly preferably, during the measurement with the detector device, an adjustment instruction for the detector device is calculated from the coordinates of the measuring range to be detected and the current position of the detector device by the control device and displayed on a display device. The adjustment instruction instructs the operator how to move the detector device over the ground.

By means of the detector device, measurements are preferably carried out in the background at a measuring frequency, and the measured values are transmitted from the detector device to the control device at a first transmission frequency.

Particularly preferably, the current position of the detector device is determined by a localization frequency of the localization device and the position data is transmitted at a transmission frequency from the localization device to the control device.

In a preferred embodiment, the control device issues a control command to interrupt the execution of measurements in the underground to the detector device if the coordinates of the measuring range to be detected are arranged outside the current detection field. The measurements with the detector device are carried out only when the detector device is correctly positioned and the coordinates of the measuring range are in the detection field of the detector device.

From the current position of the detector device and the coordinates of the measuring range to be detected by the control device, an adjustment instruction for the detector device is particularly preferably calculated and displayed on a display device. The adjustment instruction instructs the operator how to move the detector device over the ground.

Particularly preferably, the control device issues a control command for carrying out at least one measurement in the underground to the detector device if the coordinates of the measuring range to be detected are arranged within the current detection field. The method has the advantage that the triggering of the measurements is controlled by the control device. The measurements are only carried out when the detector device is correctly positioned and the coordinates of the measuring range are in the detection field of the detector device.

Particularly preferably, the detector device is guided at least twice over the measuring range to be detected, whereby first measurements with first detection parameters and second measurements with second detection parameters are carried out by means of the detector device. By measuring with different detection parameters, the Accuracy and reliability of the measurement data can be increased. Different objects and object properties in the underground require different detection parameters.

In a further development, the method according to the invention is additionally characterized in that, in the second step, by means of the localization device in addition to the current position of the detector device, a current orientation of the detector device is determined. Particularly preferably, in the third step, the current detection field of the detector device is determined by the control device from the current position and the current orientation of the detector device. By determining the current orientation, the accuracy with which the orientation of the detector device can be determined is increased. The current orientation of the detector device can be determined, for example, by means of a camera or by subtraction between a plurality of known markings which are mounted on the detector device. Here are all known methods to determine the orientation of an object in space.

Preferably, the current orientation of the detector device is additionally taken into account in all method steps of the method according to the invention which make use of the current position of the detector device.

embodiments

Embodiments of the invention are described below with reference to the drawing. This is not necessarily to scale the embodiments, but the drawing, where appropriate for explanation, executed in a schematic and / or slightly distorted form. With regard to additions to the teachings directly recognizable from the drawing reference is made to the relevant prior art. It should be noted that various modifications and changes may be made in the form and detail of an embodiment without departing from the general idea of the invention. The disclosed in the description, the drawings and the claims features of the invention may be essential both individually and in any combination for the development of the invention. In addition, all combinations of at least two of the features disclosed in the description, the drawings and / or the claims fall within the scope of the invention. The general idea of the invention is not limited to the exact form or detail of the preferred embodiment shown and described below or limited to an article which would be limited in comparison with the subject matter claimed in the claims. For given design ranges, values lying within the specified limits should also be disclosed as limit values and be arbitrarily usable and claimable. For simplicity, the same reference numerals are used below for identical or similar parts or parts with identical or similar function.

Show it:

FIG. 1 the application of a device for detecting a measuring range in a background wall formed as a back wall with a detector device, a localization device and a control device;

FIG. 2 the rear wall of FIG. 1 with a measuring range to be detected;

FIG. 3 shows the interaction of the detector device, the localization device and the control device of FIG. 1 in the form of a block diagram; and

FIG. 4 shows an embodiment variant of the method according to the invention for detecting a measuring range in the form of a flowchart.

FIG. 1 shows a device 10 for carrying out the method according to the invention for checking object properties of an object in a substrate. The term "object" encompasses all elements which are arranged in a subfloor.The device 10 comprises a detector device 11, a localization device 12 and a control device 13. The detector device 1 1, localization device 12 and control device 13 are designed as separate components. The detector device 11 is designed as a hand-held detector device, which is moved over the substrate during the measurement.

In detector devices, a distinction is made between held and guided detector devices; a held detector device is held during the measurement without feed movement over the substrate to be detected, and a guided detector device is guided during the measurement along a linear path or in any path over the substrate to be detected.

The method according to the invention will be described with reference to a measuring task in an interior 14. The interior 14 consists of a bottom 15, a left and right side wall 16, 17, a rear wall 18 and a ceiling 19. The boundaries 15-19 of the inner space 14 are summarized under the term "underground". The interior space 14 is spanned by a three-dimensional coordinate system X, Y, Z whose coordinate natensprsprung (0, 0, 0) in the left lower corner between bottom 15, left side wall 16 and rear wall 18 is arranged.

FIG. 2 shows the rear wall 18 of the inner space 14 with a measuring area 21 to be detected. The rear wall 18 lies in the XY plane of the coordinate system and has a width B in the X direction and a height H in the Y direction.

Before 1 1 measurements are performed by means of the detector device, the detector device 1 1 must be positioned over the measuring range 21. For this purpose, by means of the localization device 12, the current position P _act with the coordinates _x.sub.act , _y.sub.act , _{z.sub.actu of} the detector _{device 11} in the interior 14 is determined. The current position P _{act of} the detector device 1 1 is determined by means of two localization marks 22A, 22B. In the exemplary embodiment, the localization marks 22A, 22B are mounted on top of the detector device 11. From the current position P _{act of} the detector device 11, the control device 13 determines a current detection field 23 of the detector device 11. There is a known relationship between the positions of the localization marks 22A, 22B and the detection field 23 of the detector device 11. A current orientation O _{akt of} the detector device 1 1 can likewise be determined with the aid of the localization marks 22A, 22B. After the control device 13 has determined the current detection field 23 of the detector device 1 1, the starting position of the measuring range 21 is compared by the control device 13 with the current detection field 23 of the detector device 1 1. The measuring area 21 is rectangular and formed by four vertices E _u! , _EQ i, E _or , E _ur limited. The starting points of the measuring range 21 are the corner points.

FIG. 3 shows the structure and the interaction of the detector device 1 1, the localization device 12 and the control device 13 in the form of a block diagram. The detector device 1 1, localization device 12 and control device 13 are formed in the exemplary embodiment as separate components that can communicate with each other via communication links.

The detector device 1 1 and the control device 13 can be connected to one another via a first communication connection 31. The control device 13 can be connected to the localization device 12 via a second communication connection 32. The communication connections can be designed as wireless communication links, for example as radio, infrared, Bluetooth, WLAN or Wi-Fi connections, or as wired communication links. In addition to the listed wireless connection technologies, all known and future wireless connection technologies for data and image transmission are suitable. The control device 13 comprises a housing 33, in which an operating device 34 and a display device 35 are integrated. The operating device 34 and the display device 35 can, as shown in FIG. 2 shown formed as separate parts or shared, for example, integrated into a touch screen. The control device 13 also has an evaluation and control element 36, a memory element 37 and a first transmitting and receiving element 38.

The detector device 1 1 comprises a sensor device 41, a control element 42 for controlling the sensor device 41 and a second transmitting and receiving element 43. Starting from the first transmitting and receiving element 38 of the control device 13, the first communication connection to the second transmitting and receiving element 43 of the detector device 1 1 constructed. The control commands for the detector device 1 1 are transmitted from the control device 13 via the first communication link 31 to the control element 42 of the detector device 23. The sensor device has a single sensor element or a plurality of sensor elements; the sensor elements can be designed as inductive sensors, capacitive sensors, radar sensors, magnetic field sensors or other sensors suitable for detecting objects in surfaces.

The localization device 12 comprises a measuring device 44, a control and evaluation element 45 for controlling the measuring device 44 and for evaluating the measured values and a third transmitting and receiving element 46. The localization device 12 is for example a total station and the measuring device 44 a distance and Angle measuring device formed. Starting from the first transmitting and receiving element 38 of the control device 13, the second communication link 32 is constructed to the third transmitting and receiving element 46 of the localization device 12.

FIG. 4 shows the method according to the invention for detecting a measuring range in a background with reference to a flow chart. The method is based on the measuring range 21 of FIG. 2, which is arranged in the rear wall 18.

The operator selects in a step S01 by means of the operating device 34 to be detected measuring range 21 with the start position E _u i and the coordinates; the measuring area 21 is loaded into the control device 13 in a step S02. Before starting the method, the operator can specify one of the corner points as the start position, or the control device 13 decides during the execution of the method which of the corner points is closer, and defines this as the start position. In the embodiment of FIG. 4, the lower left end point E _u i of the measuring range 21 is defined as the starting position. The operator starts the execution of the process in a step S03. After the start in step S03, the localization device 12 determines in a step S04 the current position P _ak and current orientation O _ak t of the detector device 1 1 on the rear wall 18, which is transmitted from the localization device 12 to the control device 13 in a step S05 , In a step S06, the control device 13 determines from the current position and orientation P _akt , O _ak t the current detection field 23 of the detector device 1 1 and compares the start position in a step S07 with the current detection field 23. In this case, the control device 13 checks in step S07 Whether the starting position E _u i of the measuring range 21 to be detected is arranged within the current detection field 23. If the start position E _u i of the measuring range 21 is arranged outside the current detection field 23 (N in S07), the control device 13 creates the current position and orientation P _act , O _ak t of the detector device 1 1 and the start position E _u in a step S08 i is an adjustment instruction for the detector device 1 1, which is displayed on the display device 35. The method according to the invention is continued with step S04. If the start position E _u i is located within the current detection field 23 (J in S07), the control device 13 issues a control command to the detector device 1 1 in a step S09 to take measurements at a measurement frequency in the ground 18, and determines in a step S10 from the current position and orientation P _act , O _ak t and the coordinates of the measuring range 21 an adjustment instruction how the detector device 1 1 is to be moved over the measuring range to be detected 21. In a step S11, the localization device 12 determines the current position and orientation P _akt , O _akt with a localization frequency and transmits the position data to the control device 13. The control device 13 determines from the current position and orientation P _akt , O _akt the current detection field 23 and compares the coordinates of the measuring range 21 to be detected with the current detection field 23 in a step S12.

If the coordinates of the measuring range 21 are arranged within the current detection field 23 (J in S12), the method according to the invention is continued with step S1 1. If the coordinates of the measuring area 21 are arranged outside the current detection field 23 (N in S12), the control device 13 issues a control command to the detector device 11 in a step S13 to interrupt the measurements in the underground 18. The control device 13 determines in a step S14 from the current position and orientation P _act , O _{act of} the detector device 1 1 and the coordinates of the measuring range 21, an adjustment, which is displayed on the display device 35.

The current position and orientation P _act , O _{act of} the detector device 1 1 are determined in a step S15 by the localization device 12 and transmitted to the control device 13. The control device 13 determines from the current position in a step S16. tion and orientation P _act , O _{act of} the detector device 1 1 the current detection field 23 and compares the coordinates of the measuring range to be detected 21 in a step S17 with the current detection field 23. In this case, the control device 13 checks in step S17, whether the coordinates of the detected Measuring range 21 are disposed within the current detection field 23.

If the coordinates of the measuring area 21 are arranged outside the current detection field 23 (N in S17), the method according to the invention is continued with step S14. If the coordinates of the measuring area 21 are arranged within the current detection field 23 (J in S17), the control device 13 generates in a step S18 a control command to the detector device 11 to continue the measurements in the underground 18. The method according to the invention is continued with step S.

Claims

claims

1 . Method for detecting a measuring region (21) in a substrate (18) by means of a device (10) having a detector device (1 1) with a detection field (23), a localization device (12) and a control device (13), wherein: - a to be detected measurement area (21) in a first step with a starting position (e _u i) and coordinates (e _u i, e i _0, e _or, e _ur) is selected, the dimensions of the to be detected, the measuring range (21) are larger than the detection field (23) of the detector device (1 1),

^■ in a second step by the localization device (12) a current posi- tion (P _ak t) of the detector means (1 1) is determined,

^■ in a third step by the control device (13) from the current position (Pa _k t) of the detector device (1 1) a current detection field (23) is determined and

^■ in a fourth step, the starting position of the measuring range to be detected is compared by the control device (13) with the current detection field (23).

2. The method according to claim 1, characterized in that from the current position (Pa _k t) of the detector device (1 1) and the start position of the measuring range to be detected (23) from the control device (13) an adjustment for the detector device (1 1 ) is calculated and displayed on a display device (35) when the start position (E _u i) outside the current detection field (23) is arranged.

3. The method according to claim 1, characterized in that by the control device (13) a control command to perform at least one measurement in the ground (18), to the detector device (1 1) is issued when the start position (E _u i) of detecting measuring range within the current detection field (23) is arranged.

4. The method according to claim 1, characterized in that by the control device (13) an operating instruction, the detector device (1 1) stop, created and displayed on a display device (35) when the starting position (E _u i) of the detected Measuring range (21) within the current detection field (23) is arranged.

5. The method according to claim 4, characterized in that of the control device (13) to execute a control command, at least one measurement in the ground (18) to the

Detector device (1 1) is issued when the start position of the measuring range to be detected (21) within the current detection field (23) is arranged and the detector device (1 1) is not moved.

6. The method according to any one of claims 3 or 5, characterized in that during the measurement with the detector device from the coordinates (1: 1) (E _u i, E i _0, E _or E _ur) to be detected measurement range (21) and the current position (P _act ) of the detector device (1 1) is calculated by the control device (13) an adjustment instruction for the detector device (1 1) and displayed on a display device (35).

7. The method according to claim 6, characterized in that by means of the detector device (1 1) with a measuring frequency measurements in the ground (18) are executed and transmits the measured values at a first transmission frequency from the detector device (1 1) to the control device (13) become.

8. The method according to any one of claims 6 to 7, characterized in that the current position (P _act ) of the detector device (1 1) with a localization frequency of the localization device (12) is determined and the position data at a second transmission frequency from the localization device ( 12) are transmitted to the control device (13).

9. The method according to claim 6, characterized in that from the control device (13) a control command to interrupt the execution of measurements in the ground (18), to the detector device (1 1) is issued if the coordinates (E _u i, e ₀ i, e _or e _ur) of the to-measurement area (21) outside the detection field (23) are arranged.

10. The method according to claim 9, characterized in that from the current position

(Pact) of the detector means (1 1) and the coordinates (E _u i, E i _0, E _or, E _ur) is calculated to be detected measurement range (21) of the control means (13) comprises a Verstellanweisung for the detector means (1 1) and displayed on a display device (35).

1 1. A method according to claim 10, characterized in that the control means (13) execute a control command, at least one measurement in the substrate (18) to the detector means (1 1) is issued when the coordinates (E _u i, E ₀ i, E _or , E _ur ) of the measuring range to be detected (21) within the current detection field (23) are arranged.

12. The method according to claim 7, characterized in that the detector device (1 1) at least twice over the measuring range to be detected (23) is guided, wherein carried out by means of the detector means (1 1) first measurements with first detection parameters and second measurements with second detection parameters become.

13. The method according to claim 1, characterized in that in the second step by means of the localization device (12) additionally a current orientation (O _ak t) of the detector device (1 1) is determined.

14. The method according to claim 13, characterized in that in the third step, the current detection field (27) of the detector device (1 1) from the current position (P _act ) and the current orientation (O _ak t) of the detector device (1 1 ) is determined.