BoreDoc - Digital drilling documentation. Simple. Offline. Reliable.

With BoreDoc, you can record drilling data directly on site - structured, mobile and without paperwork. The app creates print-ready reports, also works offline and protects your data in accordance with the GDPR.

  • Mobile & highly offline-capable
  • Print-ready PDF reports in seconds
  • No cloud - data protection-friendly and local
Documentation drilling site #1 - Park Sanssouci
Documentation drilling site #2 - Park Sanssouci
Information on the borehole #2
Information on the borehole #1
Drilling site

Which platforms does BoreDoc support?

BoreDoc is currently available as an Android app for tablets and smartphones via the Google Play Store offered.
In addition, a Brower version for (Chrome, Firefox, Edge, Safari), which is well suited for testing and short-term use. For long-term stable use - especially with regard to local data storage and controlled updates - the app version is recommended.

BoreDoc on various platforms

What can BoreDoc do?

BoreDoc supports you in professionally documenting drillings and maintaining an overview at all times. From recording the strata to the complete drilling log, BoreDoc bundles all important information in one place. This turns complex data into clear structures that are convincing both in everyday life on the construction site and when working with clients, authorities or partners.

BoreDoc is a cross-platform app for structured drilling documentation. It replaces handwritten forms and reduces errors through guided, structured input. Different project types such as soil sampling, exploratory drilling or well construction are supported - including the simple creation of layer directories, drilling profiles and other documents.

In contrast to traditional applications, BoreDoc works flexibly as an app and web application. Multiple users can work with the current database at the same time - regardless of end device or operating system. Integrated multilingualism makes collaboration even easier: if an English-speaking user enters "Clay", a German-speaking user automatically sees "Ton". Language settings in the user interface and in the documents can be freely selected.

BoreDoc thus optimises teamwork - in a structured, efficient and even cross-language manner. Whether for engineering offices, construction companies or experts: BoreDoc makes drilling documentation efficient, transparent and reliable.

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BoreDoc in use

Start screen

After the installation...

... The first step should be to register or transfer an existing registration. This is essential for creating documents.

Start screen

Templates

Completed templates for contractors and technicians speed up the entry of repetitive information in the input process. If the templates are not filled in, a message is displayed on the start screen.

Drilling site

Drilling site

A drilling site includes master data, such as client and contractor, as well as several boreholes.

The context menu (sandwich icon top right) for the drilling site is also located here.

Information on the borehole #1

Information on the borehole

A borehole includes the usual data, such as name/designation, geo-coordinates, drilling log (execution period, technician, drilling sections, equipment used).

Information on the borehole #2

Further information on the borehole

In addition, the borehole can be labelled with information on the soil layers, soil samples, water levels, backfilling and the development. Not all information is mandatory.

Drilling site context menu

Context menu for the drilling site

The context menu for the drilling site contains various functions, such as validating the entered data and triggering document generation.

Document selection

Document selection

In the first step of validation, the documents to be generated are selected. These include the following: Stratigraphic log, drilling profile, drilling log, sampling log, geological section and others.

Result of the validation

Result of the validation

The validation result distinguishes between errors, warnings and valid. Warnings can be understood as hints. Example: Removal in the drilling profile is not possible if no information on backfilling has been provided.

Generate documentation for the drilling site

Generate documentation

This function is available online.

By requesting a document, the data from the drilling site is sent to the server, where the documents are generated. Depending on the connection speed, the process takes 5 to 20 seconds.

Documentation drilling site #1 - Park Sanssouci

Documentation #1

The documentation generated for the drilling site is transferred to your device as a PDF. You will need an appropriate display programme to view the document.

Prices & availability

You can currently use BoreDoc completely free of charge. Our current focus is on further developing the functions together with our users and optimising them for practical use. A binding pricing model will be introduced at a later date. Until then, you can benefit from all the advantages without restrictions and without hidden costs.

List of layers

A stratigraphic log forms the basis of any systematic drilling documentation. It records which layers of the subsoil occur in which order and thus makes the geological structure comprehensible. With its help, the soil and rock conditions at a site can be objectively described and later retrieved. This ensures that the data collected is not only of value for the immediate purpose of the borehole, but also for future projects.

The list describes the layers encountered in their characteristic form. This includes information on appearance, texture and consistency, but also on special features such as odour, inclusions or differences in colour. Equally indispensable is the depth information, which defines the exact boundaries between the layers. This creates a continuous visualisation of the subsurface that remains comprehensible regardless of personal impressions.

There are many possible applications for the stratigraphic log. In civil engineering, it serves as a basis for assessing bearing capacity, groundwater conditions or possible subsidence. For environmental assessments, it provides information on the permeability and stratification of the soil, which can be decisive for the assessment of contaminated sites or groundwater movements. In geological research, on the other hand, it provides material for reconstructing historical deposits and developments.

A precise layer catalogue gives the drilling documentation its true significance. It provides a clear view of the subsurface, reduces uncertainties and creates confidence in further analyses. This makes it a key tool that plays a decisive role in the success of planning and projects.

Standards are essential to make a strata catalogue consistent and comparable. This includes DIN 4022,, which describes and standardises the approach to soils and rock. It is supplemented by DIN 4023, which is closely linked to the visualisation of layer sequences in the drilling profile. At international level, ISO 14688 ensures standardised classification and terminology. Together, these standards create the basis for transparent, technically correct and supra-regionally comprehensible documentation of drilling results.

Drilling profile

A drilling profile is the visual representation of the layer structure as determined during drilling. It is used to depict the sequence and thickness of the individual layers in a clear form. While the stratigraphic log records the properties in writing, the drilling profile offers the advantage of a quick overview. With just a few glances, experts can understand the position, extent and sequence of the layers. This makes it a central instrument in geotechnical and geological practice.

The representation is made as a vertical section along the borehole, whereby each layer is represented by a standardised symbol or colour scheme. This clear labelling ensures that soil types and rocks can be clearly distinguished from one another. Depth information supplements the visualisation and creates a direct reference to the actual drilling depth. This combination of graphic overview and metric accuracy creates a clear basis that remains comprehensible regardless of the text component.

In construction practice, the drilling profile is used to create a sound basis for planning. Engineers can use the profile to quickly decide which construction methods are suitable and where potential risks lie. It is also important in environmental protection, as it provides information on layer permeability and groundwater levels. Clients and authorities also benefit from the easy-to-understand format, which makes technical content more tangible.

The drilling profile is also valuable for geoscientific research. It documents geological deposits and helps to reconstruct the developmental history of a region. It is particularly indispensable in comparative studies of different locations because it provides objective and comprehensible data in graphical form. It thus combines the requirements of technical documentation with scientific precision.

There are binding standards for the creation of drilling profiles that ensure a standardised presentation. DIN 4023 (drilling profile), which specifies the graphical representation, and DIN 4022 (soil and rock characterisation) for the systematic description of the layers are decisive here. In addition, ISO 14688 is used internationally to standardise the naming and classification of soils. These specifications ensure that drilling profiles remain comparable regardless of the project or region.

Drilling log

The drilling log is the central written record of a borehole and serves as proof of its progress and results. It documents not only the geological observations, but also all the technical details that are important for evaluation and later use. Its structure enables clear traceability of the entire drilling process. This makes the drilling log an indispensable part of any geotechnical investigation or construction measure.

The typical contents of a drilling log include details of the drilling equipment, the method used and the start and end times of the drilling. The depth reached, the drilling speed and special incidents such as obstacles or technical problems are also documented. In addition, information on auxiliary equipment such as flushing, pipework or accessories used is also included. This information provides a complete basis for a precise understanding of the drilling conditions at a later date.

In practice, the drilling log fulfils various tasks. On the one hand, it serves as quality assurance and can be used as legal proof if questions arise regarding proper execution. On the other hand, it provides engineers, geologists and clients with the basis for decisions on construction methods, safety measures or cost planning. Thanks to its clear structure, it also supports communication between all parties involved and thus contributes to the efficiency of a project.

The drilling log also has a firm place in scientific contexts. It provides comprehensible documentation that is indispensable for comparing different investigations. It also creates transparency, as it records not only the results but also the process by which they were obtained. In this way, it contributes to making geological data permanently usable and verifiable.

The preparation of drilling logs is regulated by standards to ensure standardisation and comparability. Of particular relevance is DIN 4021,, which contains clear specifications for the logging of boreholes. In addition, DIN 4022, is used to standardise the description of soil and rock materials. At international level, ISO 22475 is also used, which standardises geotechnical exploration, sampling and groundwater measurements. These standards ensure that drilling logs are technically robust and internationally understandable.

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