DE202010016564U1 - Surveying equipment and surveying system - Google Patents

Abstract

Surveying apparatus, in particular handheld surveying apparatus, for recording and reproducing location-correlated data, comprising a housing, a position sensor, a first processor, a data memory, a first power supply and a first interface for recording and transmitting data.

Description

The invention relates to a surveying device, in particular a surveying device for recording and reproducing location-correlated data and a surveying system with such a surveying device.

State of the art

Frequently occurs in construction measures, the problem that, for example, a plurality of boreholes in a predetermined orientation in components, such as in walls, floors or ceilings, must be installed. However, these components may be traversed by electrical wires, water pipes, heating pipes or the like. In order to identify suitable locations for the plurality of boreholes in a component, the location and the course of any lines must be determined as accurately as possible (recording of location-correlated data). Based on the recorded location of lines, then drilling can be made without running the risk of accidentally damaging the lines (reproducing the location-correlated data).

For example, the prior art discloses the BOSCH "D-tect 150 Professional" Wallscanner, which has a detector, a screen, a processor, and four unidirectional rollers, the detector being configured to locate materials in a device, which differ from the building substance of the component.

The device may be rolled by the user along an axis over a surface of a device. During this process, the device locates materials that are located in the component and different from the building substance, records the location of these materials and represents the situation on the screen. Then, places that are suitable for example for attaching a borehole, manually be marked on the wall.

In the EP 1 659 362 A1 a measuring system is disclosed which has a transducer and also has a locating device. With the aid of this measuring system, for example, the distance between two localized objects can be measured and read on a display of the measuring system.

Disclosure of the invention

It is an object of the present invention to provide a surveying device in the form of a so-called "intelligent pen" which enables a simplified recording and reproducing of location-correlated data, in particular the position of, for example, lines in components. It is also an object of the present invention to provide such an "intelligent pen" system which cooperates in a simple manner with power tools, in particular a wall scanner for locating lines in components.

The surveying device according to the invention has a position sensor, a first processor, a data memory, a first power supply and a first interface for recording and transmitting data.

The first power supply is suitable for supplying the position sensor, the processor, the data memory and the interface with power. Examples of a first power supply according to the invention are batteries or accumulators, in particular lithium ion batteries.

The position sensor is suitable for determining a position, in particular a surface position, of the device with respect to a reference position. For example, the position sensor can be integrated in running means or can also be an optical sensor chip, as used in an optical mouse. Particularly preferred is the use of micromechanical acceleration sensors (MEMS) as a position sensor according to the invention. For example, with the aid of the "Bosch MEMS SMI 540" for determining two acceleration axes (a _x , a _y ) and one axis of rotation (Ω _z ), the position of the position sensor relative to a reference position on a surface can be determined.

The first interface of the surveying equipment is suitable for receiving and transmitting data. This first interface is connected to the processor. Examples of a first interface according to the invention are a serial interface, Bluetooth, Infrared Data Association or Wi-Fi. The last three interfaces have the advantage of allowing a wireless connection.

The data memory is suitable for storing data. An example of a data memory according to the invention is a memory chip based on the flash EEPROM technology.

The first processor is suitable for receiving data from the interface and the position sensor and for sending data to the interface and to the memory. In particular, the first processor is adapted to summarize measurement data, which it receives via the interface, and location data, which receives the first processor from the position sensor to tuples and store in the memory. Furthermore, the first processor is able to retrieve tuples from memory and over to provide the interface to a device. The tuples can be stored in the memory in a database structure. Examples of a first processor according to the invention are any type of programmable microprocessor.

The present invention also provides a surveying system for recording and reproducing location-correlated data, the system comprising a surveying device and a display element according to the invention.

The display element can be an integral part of the surveying device or, in a preferred embodiment, can also be realized as a separate unit.

The display element has a screen, a second processor, a second power supply, controls and a second interface.

The second power supply is suitable for powering the second interface, the second processor, and the screen. Examples of a second power supply according to the invention are batteries or accumulators.

First and second power supply could also be realized by one and the same power supply, in particular in the event that the display element is integrated in the surveying device.

In a further preferred embodiment, the surveying system according to the invention comprises a surveying device and a separate display element, as described above. The display element is implemented in this embodiment as a mobile phone (in particular as a smartphone, for example, an "iPhone" Apple) or PDA on which a software application can be installed.

These embodiments have the advantage that location-correlated measurement data can be accessed and displayed in a user-friendly manner on a separate screen.

The second interface is suitable for receiving and sending data. The second interface is connected to the second processor. Examples of a second interface according to the invention are Bluetooth, Infrared Data Association or Wi-Fi. In particular, the interface for receiving tuples containing location-correlated measurement data is used by the surveying device.

The second processor is suitable for receiving data from the interface and the position sensor and for sending data to the interface and to the memory. In particular, the second processor is suitable for processing measurement data which it receives via the interface into an image which represents the location-correlated measurement data in a user-friendly manner. The image is sent to the screen. An example of a user-friendly presentation of the measurement data are color-coded maps. Examples of a processor according to the invention are any type of programmable microprocessor.

The screen can represent the image generated by the processor. Examples of a screen according to the invention include liquid crystal screens, thin film transistor screens, surface conduction electron emitter screens, plasma screens, light emitting diode screens, or field emission screens. Particularly advantageous may be the use of a touch screen as the screen according to the invention, on which in addition to the edited image, the controls can be displayed. The touchscreen detects contacts with the controls and forwards them to the processor.

The controls are suitable for capturing user input. The user inputs are used, for example, to change the representation of the location-correlated measurement data. Examples of controls according to the invention are any kind of buttons, switches and touch-sensitive surfaces. As described above, the controls may also be integrated in the screen.

The surveying device according to the invention or the surveying system according to the invention is in particular also suitable for use with various, including future, power tools. The surveying system according to the invention may in particular comprise a locating device, such as a Studfinder or a radar locating device, such as, for example, a BOSCH wall scanner "D-tect 150 Professional" type of device. In addition, the surveying system according to the invention can be combined with almost any power tool. In particular, it offers a drilling, chiselling or sawing power tool.

The combination of technical features according to the invention has the advantage that the surveying device according to the invention can universally store and retrieve measurement data from, for example, a power tool, in a location-correlated manner.

Further advantages of the surveying device according to the invention or the surveying system according to the invention are the following Description of some embodiments and the accompanying drawings.

drawing

Exemplary embodiments of an inventive surveying device or a surveying system according to the invention are shown in the drawing, which are to be explained in more detail in the following description. The figures of the drawing, the description and the claims contain numerous features in combination. A person skilled in the art will also consider these features individually and combine them into other or more meaningful combinations.

It shows:

1 An embodiment of a surveying system according to the invention with a surveying device, which is integrated in a locating device,

2 an alternative embodiment of a surveying system according to the invention with a surveying device and a display element in the form of a PDA.

3 a further embodiment of a surveying system according to the invention with a surveying device, a display element and a power tool.

The 1 . 2 and 3 represent exemplary embodiments of the surveying device according to the invention or of a corresponding surveying system for recording and reproducing location-correlated data. In particular, FIGS 1 to 3 Applications of the system according to the invention for locating lines in a wall ( 1 ), for showing the lines in the wall ( 2 ) and for drilling holes in the wall ( 3 ) is used.

In 1 the surveying device according to the invention is arranged on a trained as a Wallscanner locating device, in particular a Radarortungsgerät. The surveying device can be permanently integrated in the locating device, or else be fixed or detachable with this connected. The wall scanner is suitable for locating materials, in particular plastics, in a structural element, such as in a wall, in a floor or in a ceiling, the materials differing from a building substance of the structural element.

While a user moves the wall scanner over a wall, the wall scanner transmits its measurement data to the surveying device.

The surveying device receives the measured data via the interface. The processor correlates the measurement data with the location data of the surveying device, which it receives from the position sensor, and stores the measurement data and location data as tuples in the memory.

The location data are determined by the position sensor with respect to a reference position (in 1 . 2 and 3 shown as point R with crosshairs). The stored tuples are retrieved regularly from the memory and transmitted via the interface to the display element, wherein the measured data are displayed on the screen of the display element.

In the embodiment of 2 For example, the surveying device designed as an "intelligent pen" is autonomously moved along the wall by the user. The user can be displayed on the screen of the separate display element, in which position the "smart pen" is currently located, whether in this position lines are inside the wall and / or how deep at this position, the lines are inside the wall , For this purpose, the "intelligent pen" location data previously (see exemplary embodiment of 1 ) and retrieve and alert the user when passing over a corresponding position on the presence of trapped objects.

In the embodiment of 3 is designed as an "intelligent pen" surveying system according to the invention arranged on a drill. The user places the drill at a position and checks in real time on the screen of the display element whether and how deep it is allowed to drill at that position. Also for this purpose, the "Intelligent-Pen" location data previously (see exemplary embodiment of 1 ) and stored, retrieve. The drill automatically shuts off if there is a risk of damage to a pipe or similar.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 1659362 A1 [0005]

Claims (10)

Surveying apparatus, in particular handheld surveying apparatus, for recording and reproducing location-correlated data, comprising a housing, a position sensor, a first processor, a data memory, a first power supply and a first interface for recording and transmitting data. Surveying apparatus according to claim 1, characterized in that the position sensor, the first processor, the data memory, the first power supply and the first interface are arranged in the housing. Surveying apparatus according to claim 1, characterized in that the position sensor has at least one micromechanical acceleration sensor. Surveying system with a surveying device according to one of the preceding claims and a display element. Surveying system according to claim 4, characterized in that the display element is formed separately from the surveying device. Surveying system according to claim 4 or 5, characterized in that the display element has a screen, a second processor, a second power supply, controls and a second interface. Measuring system according to one of claims 4, 5 or 6, characterized in that the surveying system comprises a power tool. Surveying system according to claim 7, characterized in that the power tool is a locating device, in particular a Radarortungsgerät. Measuring system according to claim 7, characterized in that the power tool is a drilling or chiseling electrical appliance. Measuring system according to claim 7, characterized in that the power tool is a sawing electrical appliance.

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