The invention relates to a drilling assembly for earth or rock drilling, comprising an inner rod, which comprises, at its distal end facing the ground, an innerdrilling tool for removing ground material, and which can be connected, at its proximal end, to a rotary drive forthe transmitting a drilling torque, a tubular outer rod, which surrounds the inner rod and comprises, at its distal end, an annular drill bit for removing ground material, and an impact unit, which is arranged on the inner rod in the region of the distal end and is configured to exert axially directed impacts on the inner drilling tool, wherein, in the region of the distal end, a radial connecting apparatus is arranged and configured between the inner rod and the outer rod, which connecting apparatus allows torque to be transmitted from the rotationally driven inner rod to the drill bit of the outer rod. According to the invention, it is provided that a telescopic connecting unit is arranged on the inner rod and is configured to allow torque to be transmitted between the distal end of the inner rod and the proximal end of the inner rod, and to allow axial displacement between the distal end of the inner rod and the proximal end of the inner rod.
The invention relates to a method for creating a three-dimensional soil model for a plot of land, particularly a building plot, wherein data is acquired in relation to a site plan of the plot, data is acquired in relation to a plurality of exploratory borings, which have been carried out on the plot at specific exploration points and for each exploratory boring a layer structure of the soil, with individual layers and their layer thickness, has been ascertained, and the individual exploration points are entered in the acquired site plan of the plot, wherein the individual layers for each exploratory boring are analyzed by means of a computer unit and are assigned in each case to a common soil layer, a layer thickness profile of the individual soil layers within the plot is interpolated depending on the position of the individual exploratory borings to one another, and the three-dimensional soil model for the plot is created by the computer unit in this way.
The invention relates to a method for forming a support wall in the ground from a soil mortar which is made in the ground by mixing soil material and a cement suspension, wherein vertically directed support beams comprising a structural steel are set into the soil mortar in the ground prior to curing, and after curing, soil material is removed along an upper support wall section on at least one side of the support wall, while a lower support wall section continues to be surrounded by soil on both sides. According to the invention, it is provided that a thin-walled sheathing element from concrete is attached to at least one support beam, which extends along an upper support beam section, and that the support beam is set into the soil mortar in such a way that the upper support beam section with the sheathing element from concrete extends along the upper support wall section.
The invention relates to a measuring sleeve for measuring a force in an anchor pile which has at least two anchor rods, wherein the measuring sleeve comprises a sleeve-shaped base body with a receiving hole, wherein a first internal thread extends from one side and a second internal thread extends from a second side into the base body, the internal threads are each designed for screwing in a threaded section of an anchor rod, between the first internal thread and the second internal thread an annular central section is designed which is free from a thread, and on the central section at least one force measuring element is arranged which is axially spaced apart from the internal threads.
G01L 5/10 - Appareils ou procédés pour la mesure des forces, du travail, de la puissance mécanique ou du couple, spécialement adaptés à des fins spécifiques pour la mesure de la tension dans les éléments flexibles, p. ex. dans les cordages, les câbles, les fils métalliques, les filaments, les courroies ou les bandes en utilisant des moyens électriques
G01L 1/22 - Mesure des forces ou des contraintes, en général en mesurant les variations de la résistance ohmique des matériaux solides ou des fluides conducteurs de l'électricitéMesure des forces ou des contraintes, en général en faisant usage des cellules électrocinétiques, c.-à-d. des cellules contenant un liquide, dans lesquelles un potentiel électrique est produit ou modifié par l'application d'une contrainte en utilisant des jauges de contrainte à résistance
G01L 25/00 - Test ou étalonnage des appareils pour la mesure des forces, du couple, du travail, de la puissance ou du rendement mécanique
5.
CIVIL ENGINEERING MACHINE ASSEMBLY AND CIVIL ENGINEERING METHOD
The application relates to a civil engineering machine assembly comprising: a substantially vertical mast (12) on which a drive carriage (20) having at least one rotary drive (22) is mounted so as to be movable along said mast; at least one elongate groundworking tool (30) which, in order to be moved and introduced into the ground (5), is arranged on a rotary drive (22) and is driven in rotation by means of the rotary drive (22); and at least one cover element (50) which extends along at least part of the mast (12) and which, to form a spray guard, covers at least a part of the circumference of the at least one elongate groundworking tool (30); wherein: a separate additional carriage (40) is mounted on the mast (12) above the drive carriage (20); an upper end of the at least one cover element (50) is attached to an upper holding device (48) of the additional carriage (40); the drive carriage (20) together with the at least one elongate groundworking tool (30) is movable independently of the additional carriage (40); and the additional carriage (40) together with attached cover element (50) is movable on the mast (12) independently of the drive carriage (20).
The invention relates to a drilling tool for creating a bore in the ground, having a tubular drill shank, at least one removal device which is configured to remove ground material, a supply device for supplying a fluid through the drill shank through at least one outlet opening for the fluid into the bore and at least one mixing element which extends radially to the drill shank, is arranged on the drill shank above the removal device and is configured to mix ground material with the fluid. According to the invention, it is provided that at least one first outlet opening is arranged in the region of the removal device and at least one second outlet opening is arranged at an axial distance from the at least one first outlet opening and at least one actuating device is provided on the supply device, by means of which the at least one first outlet opening and/or the at least one second outlet opening can be blocked, wherein fluid can optionally be introduced into the bore via the at least one first outlet opening and/or the at least one second outlet opening.
The invention relates to a system for producing an injection silicate gel solution for injection into a soil, comprising a filtering device through which a mixing water can flow for pretreatment, wherein the filtering device comprises at least one filter element for ion exchange, an admixing device for metered admixing of a curing agent, a feeding device for feeding liquid silica sol into the pretreated mixing water, a feeding device for feeding liquid sodium silicate into the pretreated mixing water, and a mixing device for mixing and homogenizing the fed components with the pretreated mixing water for forming an injection silicate gel solution.
The invention relates to a method and an arrangement for carrying out construction measures, in particular foundation engineering measures, on a construction site with a number n of construction machines, in particular foundation engineering machines, on which attachment components, in particular construction tools, are fixed in a releasable and changing manner, wherein a number N of attachment components are kept on the construction site, wherein N>n>2. Provision is made in that in a computer unit the number n and the type of construction machines and the number N and the type of attachment components present on a construction site are saved, in that the computer unit has a data connection to the individual construction machines and queries information on the actuators of the individual construction machines, in that depending on the information received the computer unit ascertains which attachment component is fixed on the individual construction machine, and in that the computer unit ascertains and indicates which attachment components are freely available on the construction site.
The invention relates to a method for forming a foundation pile in the ground, in which method: a borehole is created in the ground; a pile pipe is gripped by means of a handling device and inserted into the borehole; and a curable medium, which is cured to form the foundation pile, is introduced into an annular space between a wall of the borehole and an outer periphery of the pile pipe. According to the invention, the curable medium is introduced into the borehole via the handling device.
The invention relates to a pile tube (10) for forming a foundation pile in the ground, having a tubular main body (12), - wherein, in an interior region (13) of the tubular main body (12), there is arranged a partition plate (20) which divides the interior region (13) into a lower portion (14) and an upper portion (15) and which partitions these off with respect to one another, - wherein, in the partition plate (20), there is arranged at least one passage opening (22) having a closure device (24) by means of which the passage opening (22) can be closed and opened, and - wherein at least one feed opening (32) for feeding a curable medium is arranged in the partition (20), characterized in that at least one line (26) extends from the at least one feed opening (32) along the lower portion (14) of the tubular main body (12), and in that the at least one line (26) extends through the tube wall (16) of the tubular main body (12) and opens into an outlet opening (28)., by means of which the passage opening can be closed and opened.
The invention relates to a construction machine for introducing a displacement tube into the ground, wherein the displacement tube comprises a tube base body and, at its lower end, a closure device which comprises at least one closure flap which is adjustable between a closed position, in which the displacement tube is closed downwards by the at least one closure flap, and an open position, in which filling material is discharged from the displacement tube into the ground for forming a filling material column, wherein the construction machine comprises a feed drive for introducing and retracting the displacement tube into and out of the ground, respectively. According to the invention, it is provided that an actuating unit with at least one pressing-on element is arranged on the construction machine, by means of which the at least one closure flap is adjustable from the open position into its closed position and retainable in said position before contacting the ground at least until the closed closure flap penetrates into the ground. The invention further relates to a method for creating a filling material column.
The invention relates to a method for ground working with an underground construction device which comprises at least one rotary drive unit for rotationally driving a ground working tool and at least one feed unit, by means of which the ground working tool is introduced into the ground for creating a hole, wherein a control and evaluation unit is provided, by means of which setting parameters are acquired and stored during ground working, at least one state value resulting from ground working is acquired and stored and the setting parameters are changed and set by the control and evaluation unit depending on the at least one acquired state value. According to the invention, it is provided that an automatic calibration is carried out by the control and evaluation unit at least at the beginning of ground working, wherein ground working is performed in a first calibration section with a first set of setting parameters predetermined by a calibration program and at least in a further second calibration section with a second set of setting parameters predetermined by the calibration program, wherein the predetermined sets of setting parameters differ from one another, and that subsequently the control and evaluation unit sets the setting parameters for further ground working depending on the state variables acquired in the calibration sections.
E21B 44/04 - Commande automatique de l'avance de l'outil en réponse au couple fourni par le moyen d'entraînement
E02F 5/08 - Dragues ou engins de terrassement à usages particuliers pour creuser des tranchées ou fossés avec des roues excavatrices tournant autour d'un axe
E02F 5/14 - Éléments constitutifs pour excavateurs de tranchées, p. ex. dispositifs indicateurs
E21B 3/02 - Moyens d'entraînement de surface pour forage par rotation
13.
CONSTRUCTION METHOD AND ARRANGEMENT FOR CARRYING OUT A CONSTRUCTION PROJECT
The invention relates to a construction method and an arrangement for carrying out a construction project involving the production of several foundation elements on a construction site by means of at least one construction apparatus, wherein based on information on starting conditions, in particular on the ground composition, and the at least one construction apparatus as well as specifications for the construction project with the foundation elements to be produced a method sequence with determination of manufacturing parameters for each foundation element to be produced is defined in a computer unit, on the basis of the defined method sequence with the defined manufacturing parameters the production of at least one foundation element is started, during the method sequence actual data are recorded when producing the foundation elements and supplied to the computer unit, the computer unit compares the recorded actual data with target data for the defined method sequence and in the case of a relevant deviation of the actual data from the target data a changed method sequence with changed manufacturing parameters and/or new target data for the foundation elements still to be produced is ascertained by the computer unit and forwarded to the at least one construction apparatus.
The invention relates to a drilling assembly for earth or rock drilling, comprising: an inner pipe which has, at its distal end facing the ground, an inner drilling tool for removing ground material, and which can be connected, at its proximal end, to a rotary drive for the transmission of a drilling torque; a tubular outer pipe which surrounds the inner pipe and has, at its distal end, an annular core drill bit for removing ground material; and an impact unit which is disposed on the inner pipe in the region of the distal end and is designed to apply axially directed impacts to the inner drilling tool; wherein, in the region of the distal end, a radial connecting device is disposed and formed between the inner pipe and the outer pipe, said connecting device allowing torque transmission from the rotationally driven inner pipe to the core drill bit of the outer pipe. According to the invention, a telescoping connecting unit is disposed on the inner pipe and is designed to allow torque transmission between the distal end of the inner pipe and the proximal end of the inner pipe, and to allow axial movement between the distal end of the inner pipe and the proximal end of the inner pipe.
The invention relates to a method for designing and forming a retaining wall in the ground having a required nominal wall stiffness from a soil-based mortar, which is produced in the ground by mixing soil material and a cement suspension, and vertically aligned support beams, which are placed in the soil-based mortar and arranged therein, wherein the arrangement of the support beam is designed with an overall beam stiffness. According to the invention, the support beam is arranged such that the designed overall beam stiffness is smaller than the required nominal wall stiffness, and in that, when designing and arranging the support beams, an additional stiffness component is added that results from at least one adjacent wall section made of soil-based mortar.
The invention relates to civil engineering machine for forming a hole in the ground, the civil engineering machine comprising: a machine frame (12); a holding device (14) in an upper region of the machine frame (12) for holding the civil engineering machine (10) on a supporting cable or supporting rod; a removal device (20) which has at least one rotatingly drivable removal element (22), is arranged in a lower end region of the machine frame (12) and is designed to remove ground material; a drive (16) arranged on the machine frame (12) for rotatingly driving the at least one removal element (22); and a suction device for suctioning removed ground material, together with a liquid which is located in the hole, upward by means of a suction line (32), the suction device comprising at least one suction opening in the lower end region of the machine frame (12) and a suction pump (34) which is arranged on the machine frame (12). The suction line (32) opens into a distributing unit (40) which is arranged on the machine frame (12), and an upwardly guided discharge line (38) and a return line (60) for returning a portion of the suctioned fluid to the lower end region of the machine frame (12) are connected to the distributing unit.
E02D 7/28 - Mise en place de pieux creux ou de tubages par moyens disposés à l'intérieur des pieux ou des tubages
E02D 17/13 - Fouilles de fondationsOutillage pour faire ces fouilles
E21B 4/18 - Ancrage ou avancement dans le trou de forage
E21B 7/20 - Enfoncement de tubages de revêtement ou de tubes dans les trous de forageForage et tubage simultanés des trous de forage
E21D 1/06 - Fonçage des puits mécanique au moyen d'appareils à inciser pour forer les puits
E02F 3/20 - DraguesEngins de terrassement entraînés mécaniquement avec des roues excavatrices tournant autour d'un axe et outils qui ne font qu'ameublir la terre
E02F 3/90 - Éléments constitutifs, p. ex. entraînements, dispositifs de commande
E02F 3/92 - Éléments de creusement, p. ex. crépines d'aspiration
17.
CIVIL ENGINEERING TOOL AND CIVIL ENGINEERING METHOD
The invention relates to a civil engineering tool for attachment to a civil engineering machine with a carrier, with at least one sensor for acquiring operating data on the civil engineering tool. It is provided according to the invention that arranged on the civil engineering tool is an operating data unit, which is autarkic of the civil engineering machine and which has the at least one sensor and a data storage device, in which the acquired operating data are stored and are retrievable on the civil engineering tool independently of the carrier.
E21B 47/26 - Stockage des données en fond de puits, p. ex. dans une mémoire ou sur un support d'enregistrement
E21B 47/12 - Moyens pour la transmission de signaux de mesure ou signaux de commande du puits vers la surface, ou de la surface vers le puits, p. ex. pour la diagraphie pendant le forage
18.
MEASURING SLEEVE AND METHOD FOR MEASURING A FORCE IN AN ANCHOR PILE
The invention relates to a measuring sleeve for measuring a force in an anchor pile, having at least two anchor rods, wherein the measuring sleeve comprises a sleeve-like main body with a receiving hole, wherein a first inner thread extends from one side and a second inner thread extends from a second side into the main body, with the inner threads each being designed for screwing in a threaded section of an anchor rod, an annular central section is formed between the first inner thread and the second inner thread, which is free of a thread, and at least one force measuring element is arranged on the central section, which is axially spaced apart from the inner thread.
G01L 1/22 - Mesure des forces ou des contraintes, en général en mesurant les variations de la résistance ohmique des matériaux solides ou des fluides conducteurs de l'électricitéMesure des forces ou des contraintes, en général en faisant usage des cellules électrocinétiques, c.-à-d. des cellules contenant un liquide, dans lesquelles un potentiel électrique est produit ou modifié par l'application d'une contrainte en utilisant des jauges de contrainte à résistance
19.
METHOD FOR CREATING A THREE-DIMENSIONAL SOIL MODEL FOR A SITE
The invention relates to a method for creating a three-dimensional soil model for a site, more particularly a building site, wherein data regarding a layout plan of the site is acquired, data regarding a plurality of exploratory drilling operations, which have been carried out at the site at specific exploration points and for each of which a layer structure of the soil, with individual layers and their layer thickness, has been determined, is acquired, the individual exploration points are recorded in the acquired layout plan of the site, and wherein, by means of a computer unit, the individual layers are analyzed for each exploratory drill hole and are each assigned to a common soil layer, a layer thickness profile of the individual soil layers within the site is interpolated in accordance with the location of the individual exploratory drill holes relative to each other and thus the three-dimensional soil model for the site is created by the computer unit.
G06F 30/12 - CAO géométrique caractérisée par des moyens d’entrée spécialement adaptés à la CAO, p. ex. interfaces utilisateur graphiques [UIG] spécialement adaptées à la CAO
G06F 30/20 - Optimisation, vérification ou simulation de l’objet conçu
The invention relates to a trench cutter having at least one pair of cutting wheels, at least one bearing plate on which the cutting wheels of a pair are rotatably arranged on the two sides of the bearing plate, a base frame on the underside of which the at least one bearing plate is attached, and a cutting wheel drive for driving the cutting wheels via a transmission lubricated with transmission oil in the bearing plate. According to the invention it is provided that at least one heat exchanger is arranged above the bearing plate and that for cooling the transmission oil, an oil circuit is formed to which the at least one heat exchanger is connected above the bearing plate.
E02F 5/08 - Dragues ou engins de terrassement à usages particuliers pour creuser des tranchées ou fossés avec des roues excavatrices tournant autour d'un axe
E02F 5/14 - Éléments constitutifs pour excavateurs de tranchées, p. ex. dispositifs indicateurs
E02F 3/20 - DraguesEngins de terrassement entraînés mécaniquement avec des roues excavatrices tournant autour d'un axe et outils qui ne font qu'ameublir la terre
E02F 3/24 - Roues excavatricesÉléments excavateurs des rouesEntraînement des roues
21.
METHOD AND ARRANGEMENT FOR MONITORING A STRUCTURAL FOUNDATION
The invention relates to a method and an arrangement for monitoring a structural foundation in a ground for a structure, wherein ground parameters are determined for the ground, based on the determined ground parameters a preliminary ground model is calculated by means of a computer unit, on which a design of the structural foundation is laid out taking into consideration specification data of the structure to be erected, during and/or after the production of the structural foundation measured values relating to settlements, distortions and/or forces on the structural foundation or the structure are recorded by means of measuring means, the measured values are forwarded to the computer unit which checks if the measured values are consistent with the preliminary ground model, and if the measured values are not consistent with the preliminary ground model, a subsequent ground model, in which the measured values are consistent with the new ground model, is calculated by the computer unit.
The invention relates to a method and an assembly for erecting a foundation element in the ground using a nozzle jet device (10). A nozzle jet linkage (14) of the nozzle jet device is introduced into the ground (5), and a curable suspension (20) is atomized under pressure into the surrounding ground (5), wherein the foundation element is erected in the ground, and at least one elongated measuring element (30) is introduced into the ground at a distance from the location where the nozzle jet linkage (14) is introduced, said measuring element being used to detect measurement values while erecting the foundation element using the nozzle jet device (10). According to the invention, a deformable tube (32) is used as the measuring element (30), said tube being filled with a measuring liquid (34), and changes in the state of the measuring liquid (34), in particular the pressure and/or fill level, are detected in the tube (32) as measurement values.
The invention relates to a boring tool for producing a borehole in the ground, having a tubular shank, at least one removal device which is designed to remove ground material, a feed device for feeding a fluid through the shank and into the borehole through at least one outlet opening for the fluid, and at least one mixing element which extends radially with respect to the shank and is arranged on the shank above the removal device and is designed to mix ground material with the fluid. The invention provides that at least one first outlet opening is arranged in the region of the removal device and at least one second outlet opening is arranged axially spaced apart from the at least one first outlet opening and that, on the feed device, at least one control device is provided, with which the at least one first outlet opening and/or the at least one second outlet opening can be shut off, wherein fluid can be introduced into the bore selectively via the at least one first outlet opening and/or the at least one second outlet opening.
The invention relates to a construction method and to an arrangement for carrying out a construction project, involving creating multiple foundation elements on a building site by way of at least one construction device, wherein information about starting conditions, in particular about soil properties, and the at least one construction device, along with specifications regarding the construction project with the foundation elements to be created, are taken as a basis for defining a method sequence involving determining manufacturing parameters for each foundation element to be created in a computer unit, based on the defined method sequence with the defined manufacturing parameters at least one foundation element starts to be created, actual data are acquired when creating the foundation elements during the method sequence and supplied to the computer unit, the computer unit compares the acquired actual data with reference data regarding the defined method sequence and, in the event of a relevant deviation of the actual data from the reference data, an amended method sequence containing amended manufacturing parameters and/or new reference data for the foundation elements still to be created is ascertained by the computer unit and forwarded to the at least one construction device.
E02D 13/06 - Accessoires pour la mise en place ou l'enlèvement de pieux ou de rideaux de palplanches pour la surveillance pendant la mise en place
E02D 17/13 - Fouilles de fondationsOutillage pour faire ces fouilles
E02F 3/20 - DraguesEngins de terrassement entraînés mécaniquement avec des roues excavatrices tournant autour d'un axe et outils qui ne font qu'ameublir la terre
E02F 3/47 - DraguesEngins de terrassement entraînés mécaniquement avec des éléments de creusement ou de raclage à mouvement alternatif mûs par des câbles ou des palans avec des bennes à auge
E21B 47/0236 - Détermination de l'inclinaison ou de la direction du trou de forage, p. ex. à l'aide de géomagnétisme utilisant un pendule
25.
CONSTRUCTION MACHINE, DISPLACEMENT PIPE, AND METHOD FOR PRODUCING A FILLING MATERIAL COLUMN IN THE GROUND
The invention relates to a construction machine for inserting a displacement pipe into the ground, wherein the displacement pipe has a main pipe body and, at its lower end, a closure device which comprises at least one closure flap that can be moved between a closure position, in which the displacement pipe is closed at the bottom by the at least one closure flap, and an open position, in which filling material can leave the displacement pipe into the ground in order to form a filling material column, wherein the construction machine has a feed drive for inserting the displacement pipe in and withdrawing said pipe from the ground. According to the invention, an actuation unit having at least one pressing element is arranged on the construction machine, by means of which unit the at least one closure cap, before contacting the ground, can be moved from the open position into its closure position and held in said closure position, at least until the closed closure cap penetrates the ground. The invention also relates to a method for producing a filling material column.
E02D 3/08 - Amélioration par compactage par insertion de pierres ou de corps perdus, p. ex. de pieux de compactage
E02D 3/11 - Amélioration ou conservation du sol ou de la roche, p. ex. conservation du permagel par des moyens thermiques, électriques ou électro-chimiques
The invention relates to a system for production of an injection silicate gel solution for injection into a soil, having a filter apparatus through which a mixing water can flow for pretreatment, wherein the filter apparatus has at least one filter element for ion exchange, an admixing apparatus for dosed admixing of a hardener, a feed apparatus for feeding of liquid silica sol into the pretreated mixing water, a feed apparatus for feeding of liquid waterglass into the pretreated mixing water, and a mixing apparatus for mixing and homogenizing of the components supplied with the pretreated mixing water for formation of an injection silicate gel solution.
The invention relates to a method for groundworking using civil engineering machinery which comprises at least one rotary drive unit for rotatingly driving a groundworking tool, at least one advancing unit with which the groundworking tool is introduced into the ground to create a hole, wherein a control and evaluation unit is provided with which setting parameters are acquired and stored during groundworking, at least one state value resulting during groundworking is acquired and stored and the setting parameters are modified and set by the control and evaluation unit according to the at least one state value acquired. According to the invention, automatic calibration is performed by the control and evaluation unit at least at the start of groundworking, wherein groundworking is perfomed in a first calibration section with a first set of setting parameters predefined by a calibration program and at least in one further second calibration section groundworking is performed with a second set of setting parameters predefined by the calibration program, wherein the predefined sets of setting parameters differ from one another, and then the control and evaluation unit adjusts the setting parameters for further groundworking according to the state variables acquired in the calibration sections.
E02D 17/13 - Fouilles de fondationsOutillage pour faire ces fouilles
E02F 3/20 - DraguesEngins de terrassement entraînés mécaniquement avec des roues excavatrices tournant autour d'un axe et outils qui ne font qu'ameublir la terre
E02D 3/12 - Consolidation par mise en place dans le sol de produits solidifiants ou obturant les pores
E02D 5/36 - Pieux en béton ou analogue coulés en place sans utilisation de tubages ou autres coffrages
E02D 13/06 - Accessoires pour la mise en place ou l'enlèvement de pieux ou de rideaux de palplanches pour la surveillance pendant la mise en place
E02D 17/00 - ExcavationsAménagement des bords des excavationsConstruction de digues ou de terre-pleins
28.
CIVIL ENGINEERING TOOL AND CIVIL ENGINEERING METHOD
The invention relates to a civil engineering tool for attaching to a civil engineering machine, having: a carrier device; at least one sensor for capturing operating data on the civil engineering tool. According to the invention, an operating data unit autonomous with respect to the civil engineering machine is arranged on the civil engineering tool, which operating data unit has the at least one sensor and a data store in which the data captured on the civil engineering tool can be stored and accessed independently of the carrier device.
E21B 47/26 - Stockage des données en fond de puits, p. ex. dans une mémoire ou sur un support d'enregistrement
G07C 3/00 - Enregistrement ou indication de l'état ou du fonctionnement de machines ou d'autres appareils à l'exclusion des véhicules
E21B 27/00 - Récipients pour ramasser ou déposer des substances dans les trous de forage ou les puits, p. ex. cuillers pour ramasser de la boue ou du sableTrépans comportant des moyens pour ramasser des substances, p. ex. trépans à clapet
E21B 41/00 - Matériel ou accessoires non couverts par les groupes
09 - Appareils et instruments scientifiques et électriques
Produits et services
Software, in particular for construction and development, in
particular in building construction, in particular software
tools for statistical calculations.
37 - Services de construction; extraction minière; installation et réparation
Produits et services
Construction machines, in particular for use in civil engineering; Drilling equipment, In particular for civil engineering; Pipe installations, Drill tubing, Drill pipe, Pipe and rod couplings, Drilling tools; Ripper teeth for construction machines, holders for ripper teeth; Diaphragm wall milling; Diaphragm wall grabs; Cable excavators; Hydraulic units; Vibrators for making drill holes and for compressing earth and building material, in particular depth vibrators and top vibrators for inserting sheet piles or posts; Sheet pile presses; Pile-driving and free-flying hammers for hammering down sheet pile walls and posts; Carriers for diaphragm wall cutters, diaphragm wall grabbers, depth vibrators and depth compressors and top vibrators, hammers; Pressing and deep-drawing tools, presses and pumps, in particular being pneumatically and hydraulically operated; Mixing installations for suspensions, injection and sealing compositions; Separating installations for separating soil components from aqueous solutions, in particular sand removal installations and decanters; On-site soil mixing equipment; Displacement drills; Top drilling units; Carriers for cranes and construction equipment; Displacement drilling installations; Geothermal and deep-drilling units; Mobile cranes; Soil improvement equipment and apparatus; Environmental cleaning and treatment installations for cleaning soil; Deep drilling installations and components for deep drilling installations for the exploration, exploitation and mining of raw materials, in particular oil and gas, on land and under water, Drilling installations and components therefor for creating foundations on the floors of bodies of water, and for exploring floors of bodies of water; Parts for the aforesaid machines, apparatus and installations, included in class 7. Civil engineering, in particular special-purpose civil engineering, structural engineering; Geothermal and deep drilling projects and mining on land and under water; Services in the field of water extraction, and exploration and extraction of raw materials on the land and under water; Construction and maintenance of biological and vegetable treatment plants.
09 - Appareils et instruments scientifiques et électriques
37 - Services de construction; extraction minière; installation et réparation
42 - Services scientifiques, technologiques et industriels, recherche et conception
Produits et services
Software for specialised civil engineering, in particular for planning and implementing civil engineering measures. Conducting and implementation of construction measures, In particular specialist civil engineering. Planning of construction measures, in particular in civil engineering.
32.
Method for producing an injection anchor in the ground and automatic post-grouting machine for the same
The invention relates to a method and a device for producing an injection anchor in the ground, wherein a bore is created in the ground, a hardening material for forming the anchor foot is injected by means of an injection member at least in a partial region of the bore, and after partial, not yet complete, hardening of the material a post-grouting medium is introduced under pressure in a region of the anchor foot via a post-grouting member, by which medium the not yet completely hardened anchor foot is broken up. According to the invention, provision is made for an automatic post-grouting machine to be connected to the post-grouting member, by which machine the post-grouting medium for breaking up the not yet hardened anchor foot is automatically introduced into the post-grouting member at a freely specifiable time.
09 - Appareils et instruments scientifiques et électriques
Produits et services
Software, in particular for construction and development, in particular in building construction, in particular software tools for statistical calculations.
34.
METHOD AND ARRANGEMENT FOR CARRYING OUT CONSTRUCTION WORK
The invention relates to a method and an arrangement for carrying out construction work, in particular civil engineering work, on a construction site with a number n of construction machines, in particular civil engineering machines, to which add-on components, in particular construction tools, are fitted in a releasable and changing manner, wherein a number N of add-on components are stored at the construction site, where N > n > 2. Provision is made for the number n and the type of construction machines and for the number N and the type of add-on components which are available at a construction site to be stored in a computer unit, for the computer unit to have a data connection to the individual construction machines and to request information relating to the actuators of the individual construction machines, for the computer unit to determine which add-on component is fitted to the individual construction machine on the basis of the information received, and for the computer unit to determine and indicate which add-on components are freely available at the construction site.
The invention relates to a method for creating a tension anchor in the ground with at least one flexible tension cable element which is unwound from a receiving drum and, to form the tension anchor, is introduced into an anchor hole in the ground, which method is characterized in that the receiving drum is suspended on a movable holding arm in a rotatable manner in order to unwind the tension cable element. The invention further relates to a receiving drum for a tension cable element for creating a tension anchor in the ground, comprising a drum-shaped basic body having an inner receiving space for receiving at least one tension cable element and at least one outlet opening for the tension cable element. There is provision that the drum-shaped basic body has arranged thereon a central shaft with a connecting portion by means of which the drum-shaped basic body is able to be suspended centrally.
The invention relates to a drill rod coupling with a sleeve-shaped coupling receiving area, a pin-shaped coupling element which is designed to be axially pluggable into the coupling receiving area in order to form a rotationally fixed connection, and at least one locking bolt which is oriented transversely to the axial coupling direction and which extends from the coupling receiving area into a locking receiving area on the coupling element in a locked coupling position. According to the invention, the locking bolt is mounted on the sleeve-shaped coupling receiving area in a radially adjustable manner between an unlocking position and a locking position by means of a gravity-based adjustment mechanism, the adjustment mechanism has at least one movable actuator that can be moved between a lower pushed-in position, in which the locking bolt is pushed into the locking position, and an upper retracted position, in which the locking bolt is retracted out of the locking receiving area into the unlocking position, and the actuator is held in the lower pushed-in position under the force of gravity.
E21B 17/03 - AccouplementsJoints entre la tige ou le tube de forage et le moteur de forage, p. ex. entre la tige de forage et le marteau
E21B 17/046 - AccouplementsJoints entre tige et trépan, ou entre tiges avec nervures, goupilles ou mâchoires et rainures complémentaires ou similaires, p. ex. accrochage à baïonnette
The invention relates to a slurry wall excavator comprising: a pair of cutting wheels (12); a support plate (14), on which the cutting wheels (12) of a pair are arranged so as to be rotatable on both sides of the support plate; a base frame (30), to the lower face of which the at least one support plate (14) is attached; and a cutting wheel drive (20) for driving the cutting wheels (12) via a gear-oil lubricated transmission in the support plate. According to the invention, at least one heat exchanger (60) is arranged above the support plate (14), and an oil circuit is formed for cooling the gear oil, to which oil circuit the at least one heat exchanger (60) located above the support plate (14) is connected.
E02D 17/13 - Fouilles de fondationsOutillage pour faire ces fouilles
E02F 3/20 - DraguesEngins de terrassement entraînés mécaniquement avec des roues excavatrices tournant autour d'un axe et outils qui ne font qu'ameublir la terre
38.
METHOD AND ARRANGEMENT FOR MONITORING BUILDING FOUNDATIONS
The invention relates to a method and an arrangement for monitoring building foundations in a ground for a building, wherein ground parameters are determined for the ground, the determined ground parameters are taken as a basis for using a computer unit to calculate a preliminary ground model, on which a design for the building foundations is laid out taking into consideration specification data for the building that is to be erected, measuring devices are used during and/or after the creation of the building foundations to record measured values relating to subsidence, distortions and/or forces on the building foundations or the building, the measured values are supplied to the computer unit, which checks whether the measured values are consistent with the preliminary ground model, and, if the measured values are not consistent with the preliminary ground model, the computer unit calculates a subsequent ground model for which the measured values are consistent with the new ground model.
The invention relates to a method and an arrangement for monitoring building foundations in a ground for a building, wherein ground parameters are determined for the ground, the determined ground parameters are taken as a basis for using a computer unit to calculate a preliminary ground model, on which a design for the building foundations is laid out taking into consideration specification data for the building that is to be erected, measuring devices are used during and/or after the creation of the building foundations to record measured values relating to subsidence, distortions and/or forces on the building foundations or the building, the measured values are supplied to the computer unit, which checks whether the measured values are consistent with the preliminary ground model, and, if the measured values are not consistent with the preliminary ground model, the computer unit calculates a subsequent ground model for which the measured values are consistent with the new ground model.
The invention relates to a method for producing a sealing floor in the ground by means of an injection nozzle, which is inserted down to a specified ground layer and through which a sealing medium is injected into the ground, wherein a sealing body is created in the ground, and a plurality of sealing bodies are introduced into the ground spaced apart from one another in such a manner that a continuous sealing floor is formed in the ground. According to the invention, a plurality of first sealing bodies is created in a first ground layer in a predefined first spacing grid with grid interspaces, wherein the first sealing bodies are spaced apart from one another in a horizontal direction, and a plurality of second sealing bodies is introduced in a second ground layer, which has a predefined vertical distance from the first ground layer, offset in relation to the first sealing bodies, wherein, to form the sealing floor, the second sealing bodies at least partially cover the second grid interspaces of the first sealing bodies and contact adjacent first sealing bodies.
The invention relates to a foundation engineering method and a construction apparatus for producing a columnar structure in the ground, in which a foundation engineering tool is driven in a rotating manner about an axis of rotation and introduced with a feeding motion into a ground, wherein the columnar structure is produced in the ground. According to the invention it is provided that during the production of the columnar structure a rotating motion and a feeding motion of the foundation engineering tool are recorded over time and forwarded to an evaluation unit, in that by means of a sensor means at least one further processing parameter is recorded over time during the production of the columnar structure in the ground and is forwarded to the evaluation unit and in that by the evaluation unit a three-dimensional model of the columnar structure is produced and displayed.
The invention relates to a method for producing a sealing base in the ground in which by injection of a curable grouting compound a plurality of sealing elements is produced in a first soil layer, which elements adjoin one another or overlap, wherein the plurality of sealing elements forms a solid base plate following curing of the grouting compound. It is provided according to the invention that in a second soil layer, which lies beneath the first soil layer for the solid base plate, a gel base is created by injection of a sealing gel, and that the solid base plate and the underlying gel base form the sealing base. The invention further relates to a correspondingly produced sealing base.
E02D 19/16 - Retenue d'eau souterraine par damage ou par interruption du passage de l'eau souterraine par l'introduction ou l'application de produits d'étanchéité
E02D 3/12 - Consolidation par mise en place dans le sol de produits solidifiants ou obturant les pores
E02D 31/12 - Dispositions de protection pour les fondations ou ouvrages réalisés par des techniques de fondationMesures dans le cadre des techniques de fondation pour protéger le sol ou l'eau du sous-sol, p. ex. prévention ou neutralisation de la pollution par le pétrole contre la poussée du terrain ou la pression hydraulique contre la poussée hydraulique vers le haut
44.
METHOD FOR CREATING A FOUNDATION ELEMENT IN THE GROUND AND FOUNDATION ELEMENT
The invention relates to a method for creating a foundation element in the ground, wherein a hole is created in the ground and a curable mass is introduced into the hole, which mass cures to form the foundation element. According to the invention, an insert body is inserted approximately centrally into the hole, which insert body is spaced apart from a peripheral wall of the hole, wherein an annular gap is formed between the peripheral wall of the hole and the insert body, and a curable mass is introduced into the annular gap, which curable mass cures to form an annular foundation element.
The invention relates to a method and a device for producing a foundation element in the ground, wherein a hole is formed in the ground which is filled with a hardenable filling mass in order to form the foundation element. According to the invention provision is made in that prior to the hardening of the filling mass a data carrier is introduced into the hole, on which information on the produced foundation element is stored .
The invention relates to a ground removal device and a method for producing a hole in the ground by means of a removal tool, which is designed and can be driven for the removal of ground material. According to the invention, at least one image-capturing unit is arranged on the removal tool, which is designed for creating an image of the upcoming ground when introducing the removal tool into the ground and removing ground material.
The invention relates to a civil engineering device with an undercarriage with a crawler chassis, an upper carriage, which is arranged on the undercarriage, and a mast, which is mounted vertically oriented on the upper carriage. According to the invention it is provided that arranged on an upper area of the mast is at least one camera, by which an image of the civil engineering device and its surroundings can be recorded.
G08B 13/196 - Déclenchement influencé par la chaleur, la lumière, ou les radiations de longueur d'onde plus courteDéclenchement par introduction de sources de chaleur, de lumière, ou de radiations de longueur d'onde plus courte utilisant des systèmes détecteurs de radiations passifs utilisant des systèmes de balayage et de comparaison d'image utilisant des caméras de télévision
E21B 7/02 - Appareils de forage caractérisés par des moyens de transport terrestre, p. ex. montés sur des patins ou des roues
E21B 41/00 - Matériel ou accessoires non couverts par les groupes
The invention relates to a trench cutter and a method for producing a cut trench in the soil having a cutter frame, at least one pair of cutting wheels which are supported and driven in a rotatable manner on a lower end of the cutter frame, wherein each cutting wheel has a plurality of cutting teeth along its outer circumference, and a supply and/or discharge means for supplying or discharging a cutting liquid to or from the cut trench in the region of the cutting wheels. According to the invention provision is made in that spaced from the supply and/or discharge means a cleaning device is provided for cleaning the cutting wheels during the cutting operation with a cleaning fluid and in that the cleaning device has a plurality of cleaning nozzles which are directed onto the outer circumference of at least one cutting wheel and designed to inject the cleaning fluid to loosen adhering soil material.
The invention relates to a construction method, in which an excavation pit is produced in the ground and in the excavation pit foundation elements are produced at predetermined working points with at least one working apparatus. According to the invention provision is made in that in a computer unit the dimensions of the excavation pit, the working points and the dimensions of the at least one working apparatus are entered and in that in the computer unit a required workspace for the at least one working apparatus and an open space in the excavation pit are determined automatically.
The invention relates to a method and a system for producing a foundation element in the ground by means of a construction apparatus, wherein by means of a ground working tool a hole is formed in the ground, in which the foundation element is produced, wherein by means of a control and evaluation unit at least one operating variable of the construction apparatus, which changes depending on a ground composition, is detected as a function of a working depth. According to the invention provision is made in that in the control and evaluation unit a ground profile to be expected is entered, which indicates a layer structure of the ground with ground layers of different ground composition, and in that by the control and evaluation unit the detected, at least one operating variable is set in correlation with the stated ground profile in order to establish, at which working depth a transition between ground layers of different ground composition is present.
The invention relates to a construction device and to a method for operating this construction device, comprising a carrier device, an approximately vertical mast, which is mounted on the carrier device, a movement element, which is vertically movable along a linear guide on the mast, and at least one GPS receiving unit, which is arranged in the region of the mast. According to the invention, it is provided that the at least one GPS receiving unit is attached to the movement element and that the at least one GPS receiving unit can be moved between an upper, first measuring position and a lower, second measuring position by means of the movement element.
The invention relates to a reinforcing cage for a slotted wall panel which, in cross-section, is essentially square with a wide side and a narrow side, wherein the reinforcing cage has reinforcing rods which are assembled in a grid-like manner. According to the invention, it is provided that the reinforcing cage is formed in at least a lateral region, which is allocated to one of the narrow sides of the slotted wall panel, with glass fiber rods. The invention further relates to a method for producing a slotted wall in the ground using such a reinforcing cage.
The invention relates to an auger arrangement and a method for forming an auger arrangement having a first drill part and a second drill part which are of tubular or bar-shaped design and in which at least one drill part is provided on its external side with an auger flight, wherein on at least one of their end regions the drill parts have matching connecting sections, wherein a first connecting section is designed as a sleeve-like female part with keyway elements and a second connecting section is designed as a mandrel-like male part with keyway elements, wherein male part and female part are plugged axially into each other to form a releasable, torque-proof connection. According to the invention provision is made in that on an internal wall of the female part an annular internal groove is applied, in that on an external wall of the male part an annular external groove is applied, in that in a plugged-together state of female part and male part the internal groove and the external groove lie opposite each other and form an annular space, on an external wall of the female part at least one introduction opening with a passage to the annular internal groove is designed and in that in order to form an axial securing a flexible steel cable is inserted via the introduction opening into the annular space and fills this out completely or to a large degree.
E21B 17/046 - AccouplementsJoints entre tige et trépan, ou entre tiges avec nervures, goupilles ou mâchoires et rainures complémentaires ou similaires, p. ex. accrochage à baïonnette
E21B 17/22 - Tiges ou tubes à structure hélicoïdale
The invention relates to a method for producing a sealing base in the ground, in which a multiplicity of sealing bodies which are adjacent to one another or overlap is produced in a first ground layer by means of injection of a curable injection compound, wherein the multiplicity of sealing bodies form a solid bearing plate after the injection compound has cured. According to the invention, it is provided that a gel base is produced by means of injection of a sealing gel in a second ground layer lying below the first ground layer for the solid bearing plate, and that the solid bearing plate and the gel base lying therebelow form the sealing base. The invention also relates to a correspondingly produced sealing base.
E02D 31/12 - Dispositions de protection pour les fondations ou ouvrages réalisés par des techniques de fondationMesures dans le cadre des techniques de fondation pour protéger le sol ou l'eau du sous-sol, p. ex. prévention ou neutralisation de la pollution par le pétrole contre la poussée du terrain ou la pression hydraulique contre la poussée hydraulique vers le haut
C09K 17/12 - Silicates solubles dans l'eau, p. ex. verre soluble
57.
METHOD FOR PRODUCING AN INJECTION ANCHOR IN THE GROUND AND AUTOMATIC POST-GROUTING UNIT THEREFOR
The invention relates to a method and a device for producing an injection anchor in the ground, wherein a bore is created in the ground, a curing compound for forming the anchor foot is injected by means of an injection member at least in a subregion of the bore and, after partial, not yet complete curing of the compound, a post-grouting medium is introduced under pressure via a post-grouting member into a region of the anchor foot, by means of which medium the not yet completely cured anchor foot is broken. According to the invention, there is provision that the post-grouting member has connected thereto an automatic post-grouting unit by means of which, at a freely determinable time, the post-grouting medium is introduced automatically into the post-grouting member in order to break the not yet cured anchor foot.
09 - Appareils et instruments scientifiques et électriques
Produits et services
Software, in particular for construction and development, in particular in building construction, in particular software tools for statistical calculations.
60.
CONSTRUCTION DEVICE AND METHOD FOR OPERATING A CONSTRUCTION DEVICE
The invention relates to a construction device and to a method for operating said construction device, comprising a carrier device, an approximately vertical mast, which is mounted on the carrier device, a movement element, which is vertically movable along a linear guide on the mast, and at least one GPS receiving unit which is arranged in the region of the mast. According to the invention, there is provision that the at least one GPS receiving unit is mounted on the movement element and that the at least one GPS receiving unit can be moved by the movement element between an upper first measuring position and a lower second measuring position.
The invention relates to a civil engineering method and a construction device for erecting a columnar structure in the ground, wherein a civil engineering tool is rotatably driven about an axis of rotation and is introduced into a ground with an advancing motion, wherein the columnar structure is erected in the ground. According to the invention, while the columnar structure is being erected, a rotational motion and an advancing motion of the civil engineering tool are recorded over time and are forwarded to an evaluation unit, at least one additional processing parameter is recorded over time by means of a sensor device while the columnar structure is being erected in the ground and is forwarded to the evaluation unit, and a three-dimensional model of the columnar structure is generated by the evaluation unit and is displayed.
The invention relates to a civil engineering method and a construction device for erecting a columnar structure in the ground, wherein a civil engineering tool is rotatably driven about an axis of rotation and is introduced into a ground with an advancing motion, wherein the columnar structure is erected in the ground. According to the invention, while the columnar structure is being erected, a rotational motion and an advancing motion of the civil engineering tool are recorded over time and are forwarded to an evaluation unit, at least one additional processing parameter is recorded over time by means of a sensor device while the columnar structure is being erected in the ground and is forwarded to the evaluation unit, and a three-dimensional model of the columnar structure is generated by the evaluation unit and is displayed.
The invention relates to a method and a device for creating a foundation element in the ground, wherein a hole is created in the ground, which is filled with a curable filling compound for forming the foundation element. According to the invention, it is provided that, prior to the curing of the filling compound, a data carrier is introduced into the hole, on which information relating to the created foundation element is stored.
The invention relates to a method and a device for creating a foundation element in the ground, wherein a hole is created in the ground, which is filled with a curable filling compound for forming the foundation element. According to the invention, it is provided that, prior to the curing of the filling compound, a data carrier is introduced into the hole, on which information relating to the created foundation element is stored.
The application relates to a civil engineering apparatus (1) having an undercarriage (10) with crawler running gear, having a superstructure (11) which is arranged on the undercarriage (10), and having a mast (14) which is mounted in a vertically directed manner on the superstructure (11), wherein at least one camera (30), by means of which an image of the civil engineering apparatus (1) and its surroundings can be captured, is arranged at an upper region of the mast (14).
E02D 7/00 - Procédés ou appareils pour la mise en place de rideaux de palplanches, de pieux, de tubages ou d'autres coffrages
B60R 1/00 - Dispositions pour la visibilité optiqueDispositions de visualisation en temps réel pour les conducteurs ou les passagers utilisant des systèmes de capture d’images optiques, p. ex. des caméras ou des systèmes vidéo spécialement adaptés pour être utilisés dans ou sur des véhicules
66.
TRENCH CUTTER AND METHOD FOR PRODUCING A TRENCH IN THE GROUND
The invention relates to a trench cutter and to a method for producing a trench in the ground, having a cutter frame, at least one pair of cutting wheels, which are mounted in a rotatable manner at a lower end of the cutter frame and are driven, wherein each cutting wheel has a multiplicity of cutting teeth around its outer circumference, and a feeding and/or discharging device for feeding and/or discharging a cutting liquid into and, respectively, out of the trench in the region of the cutting wheels. According to the invention, a cleaning apparatus for cleaning the cutting wheels with a cleaning fluid during cutting operation is provided at a distance from the feeding and/or discharging device, and the cleaning apparatus has a multiplicity of cleaning nozzles that are directed at the outer circumference of at least one cutting wheel and are configured to spray in the cleaning fluid in order to detach adhering ground material.
E02D 17/13 - Fouilles de fondationsOutillage pour faire ces fouilles
E02F 3/20 - DraguesEngins de terrassement entraînés mécaniquement avec des roues excavatrices tournant autour d'un axe et outils qui ne font qu'ameublir la terre
The invention relates to a construction method, according to which a foundation pit is excavated in the ground and foundation elements are erected at pre-determined operating points in the foundation pit, by means of at least one tool. According to the invention, the dimensions of the foundation pit, the operating points and the dimensions of the at least one tool are inputted into a computing unit, and a required working area for the at least one tool and a free space in the foundation pit are automatically determined in the computing unit.
The invention relates to a method and a system for erecting a foundation element in the ground using a construction device. A ground working tool is used to form a hole in the ground in which the foundation element is erected, wherein at least one operating variable of the construction device, said operating variable changing depending on the ground composition, is detected by a control and analysis unit on the basis of a working depth. According to the invention, an expected ground profile is entered into the control and analysis unit, said ground profile indicating a layer structure of the ground with ground layers of different ground compositions, and the control and analysis unit is used to correlate the at least one detected operating variable with the specified ground profile in order to ascertain the working depth at which there is a transition between ground layers with different ground compositions.
The invention relates to a civil engineering device and a civil engineering method for using a civil engineering device. The device has a support device, a ground preparation tool, which prepares the ground at a preparation location, and at least one GPS unit, which is arranged on the support device and is designed to determine the position of the preparation location, wherein the GPS unit is arranged at a distance from the ground preparation location. The civil engineering device is characterised in that a measuring device is provided in addition to the GPS unit, the measuring device being designed to determine the distance between the GPS unit and the preparation tool.
G01S 17/08 - Systèmes déterminant les données relatives à la position d'une cible pour mesurer la distance uniquement
E02D 13/06 - Accessoires pour la mise en place ou l'enlèvement de pieux ou de rideaux de palplanches pour la surveillance pendant la mise en place
E02F 3/43 - Commande de la position du plongeur ou de l'augeCommande de la succession des opérations d'entraînement
E02F 5/14 - Éléments constitutifs pour excavateurs de tranchées, p. ex. dispositifs indicateurs
G01B 21/04 - Dispositions pour la mesure ou leurs détails, où la technique de mesure n'est pas couverte par les autres groupes de la présente sous-classe, est non spécifiée ou est non significative pour mesurer la longueur, la largeur ou l'épaisseur en mesurant les coordonnées de points
The invention relates to an auger arrangement and a method for forming an auger arrangement having a first drill part and a second drill part (12, 14) which are tubular or rod-shaped and wherein at least one drill part is provided with a screw winding (16) on its outer side, wherein the drill parts have connecting portions (20, 40) which match one another on at least one of their end regions, a first connecting portion (20) is designed as a sleeve-like female part having keyway elements and a second connection portion (40) is designed as a mandrel-like male part having keyway elements, and the male part and female part are axially inserted into one another in order to form a detachable connection for conjoint rotation.
E21B 17/046 - AccouplementsJoints entre tige et trépan, ou entre tiges avec nervures, goupilles ou mâchoires et rainures complémentaires ou similaires, p. ex. accrochage à baïonnette
E21B 17/22 - Tiges ou tubes à structure hélicoïdale
F16L 37/14 - Raccords par insertion d'un élément entre surfaces à unir, p. ex. par un bout de fil, une goupille, une chaîne
37 - Services de construction; extraction minière; installation et réparation
42 - Services scientifiques, technologiques et industriels, recherche et conception
Produits et services
Conducting and execution of building work, in particular in specialised civil engineering and being computer-assisted. Planning of building work, in particular in specialised civil engineering and being computer-assisted.
37 - Services de construction; extraction minière; installation et réparation
Produits et services
Non-metal building elements, namely, drilled and grouted pile foundations, uncased concrete piles, pre-fabricated non-metal support walls and retaining walls in soil, of binding agents or sealing suspensions and soil Construction of civil engineering works; construction of vertical bore holes and vertical channels in soil and erecting of two-dimensional building elements for foundations, individual supports, uncased concrete piles, support walls and retaining walls of binding agents and soil, or of sealing suspensions and soil
73.
SEALING WALL BUILDING MATERIAL AND METHOD FOR PRODUCING A SEALING WALL BUILDING MATERIAL
The invention relates to a sealing wall construction material, which has a binder having cement and gravel. According to the invention, the binder comprises a mixture of cement and fly ash, the binder being free of clay material, and the sealing wall construction material has a sealing tightness having a kf value of 10-7m/s and less.
B09B 1/00 - Mise à la décharge des déchets solides
C04B 28/02 - Compositions pour mortiers, béton ou pierre artificielle, contenant des liants inorganiques ou contenant le produit de réaction d'un liant inorganique et d'un liant organique, p. ex. contenant des ciments de polycarboxylates contenant des ciments hydrauliques autres que ceux de sulfate de calcium
E02D 5/18 - Rideaux de palplanches ou parois similaires faits uniquement de béton coulé sur place
E02D 31/00 - Dispositions de protection pour les fondations ou ouvrages réalisés par des techniques de fondationMesures dans le cadre des techniques de fondation pour protéger le sol ou l'eau du sous-sol, p. ex. prévention ou neutralisation de la pollution par le pétrole
74.
SEALING WALL CONSTRUCTION MATERIAL AND METHOD FOR PRODUCING A SEALING WALL CONSTRUCTION MATERIAL
The invention relates to a sealing wall construction material, which has a binder having cement and gravel. According to the invention, the binder comprises a mixture of cement and fly ash, the binder being free of clay material, and the sealing wall construction material has a sealing tightness having a kf value of 10-7m/s and less.
B09B 1/00 - Mise à la décharge des déchets solides
C04B 28/02 - Compositions pour mortiers, béton ou pierre artificielle, contenant des liants inorganiques ou contenant le produit de réaction d'un liant inorganique et d'un liant organique, p. ex. contenant des ciments de polycarboxylates contenant des ciments hydrauliques autres que ceux de sulfate de calcium
E02D 5/18 - Rideaux de palplanches ou parois similaires faits uniquement de béton coulé sur place
E02D 31/00 - Dispositions de protection pour les fondations ou ouvrages réalisés par des techniques de fondationMesures dans le cadre des techniques de fondation pour protéger le sol ou l'eau du sous-sol, p. ex. prévention ou neutralisation de la pollution par le pétrole
75.
DRILLING DEVICE AND DRILLING METHOD FOR PRODUCING A DRILL HOLE IN THE GROUND
The invention relates to a drilling device and a method for producing a drill hole in the ground, comprising: an auger (22), which can be rotationally driven and which has at least one drill flighting (24), which runs along a central hollow pipe (26); a drill pipe (30) which can be rotationally driven independently of the auger (22), and which at least partially surrounds the auger (22); and a rotating base (40) which is rotationally arranged on a lower region of the auger (22), and which can be adjusted between a drilling position in which a passage (29) is opened to the drill flighting (24) for ground material, and a closed position in which the passage (29) is closed. According to the invention: in order to adjust the rotating base (40), the auger (22) and the drill pipe (30) can be adjusted axially in relation to one another between a first stroke position and a second stroke position; in the first stroke position, the rotating base (40) is arranged in the drilling position with an open passage (29); in the second stroke position, the rotating base (40) is arranged in the closed position thereof with a closed passage (29); and a controller is provided and configured, which indicates to a device user whether the auger (22) is in the first or the second stroke position and/or the rotating base (40) is in the closed position.
The invention relates to a device and a method for taking a sample of a filling, with which a hole in the ground is filled, having a container with at least one inlet opening for the inflow of the filling into a receiving space of the container. According to the invention provision is made in that a closing cap is placed onto the inlet opening and this is closed thereby. The container is provided with a compressed air line which leads into the receiving space, wherein on feeding compressed air into the receiving space the closing cap is released from the inlet opening and this is exposed for the inflow of the filling.
E21B 27/00 - Récipients pour ramasser ou déposer des substances dans les trous de forage ou les puits, p. ex. cuillers pour ramasser de la boue ou du sableTrépans comportant des moyens pour ramasser des substances, p. ex. trépans à clapet
37 - Services de construction; extraction minière; installation et réparation
Produits et services
Building elements (non-metallic) for foundations, uncased
concrete piles, support walls and retaining walls in soil,
of binding agents or sealing suspensions and soil. Construction of civil engineering works; construction of
vertical bore holes and vertical channels in soil and
erecting of two-dimensional building elements for
foundations, individual supports, uncased concrete piles,
support walls and retaining walls of binding agents and
soil, or of sealing suspensions and soil.
78.
Foundation element and method for producing a foundation element
The invention relates to a foundation element in the ground and to a method for producing the foundation element which is formed of a hardenable mass, wherein, prior to hardening, at least one heat exchanger element is inserted. According to the invention a transition region towards the surrounding ground is provided, in which the foundation element is formed of crushed ground material of the surrounding ground with a hardening suspension.
E02D 27/42 - Fondations pour poteaux, mâts ou cheminées
F24T 10/13 - Collecteurs géothermiques avec circulation des fluides vecteurs dans des conduits souterrains, les fluides vecteurs n’entrant pas en contact direct avec le sol utilisant des assemblages de conduits adéquats pour l’insertion dans des trous forés dans le sol, p. ex. sondes géothermiques
The invention relates to an anchor arrangement in the ground, having a ground anchor having an elongated traction element, which is introduced into a bore in the ground, wherein an anchor body is connected to the traction element on a ground-side anchoring portion, which has a larger outside diameter than the traction element, and the ground anchor comprises a heating device for releasing the traction element. Particularly efficient releasing of the traction element is achieved in that the connection to the tension element is formed by means of a connection material, which solidly connects the traction element to the anchor body at ambient temperature, wherein the connection is releasable at a specified release temperature. The invention further relates to a ground anchor provided for said purpose and to a method for anchoring.
The invention relates to a civil engineering device and a civil engineering method for using a civil engineering device. The device has a support device, a ground preparation tool, which prepares the ground at a preparation location, and at least one GPS unit, which is arranged on the support device and is designed to determine the position of the preparation location, wherein the GPS unit is arranged at a distance from the ground preparation location. The civil engineering device is characterised in that a measuring device is provided in addition to the GPS unit, the measuring device being designed to determine the distance between the GPS unit and the preparation tool.
The invention relates to a method for working soil and to a corresponding agricultural device which has at least one rotary drive unit for rotating a soil working tool and at least one advancing unit, by means of which the soil working tool is introduced into the soil. According to the invention, a control and analysis unit is provided, by means of which at least one input variable of the rotary drive unit and/or the advancing unit is detected and stored while working soil, at least one resulting output variable is detected and stored on the soil working tool, and the at least one input variable is placed in relationship with the resulting output variable, wherein a soil working value is ascertained and stored.
The invention relates to a method for working soil and to a corresponding agricultural device which has at least one rotary drive unit for rotating a soil working tool and at least one advancing unit, by means of which the soil working tool is introduced into the soil. According to the invention, a control and analysis unit is provided, by means of which at least one input variable of the rotary drive unit and/or the advancing unit is detected and stored while working soil, at least one resulting output variable is detected and stored on the soil working tool, and the at least one input variable is placed in relationship with the resulting output variable, wherein a soil working value is ascertained and stored.
The invention relates to a method for working the soil and an associated construction machine, which comprises at least one rotating drive unit for rotationally driving a tool for working the soil and at least one feed unit, with which the tool for working the soil is placed into the ground. According to the invention, a control and analysis unit is provided, with which when working the soil at least one input variable of the rotating drive unit and/or the feed unit are read and saved, at least one resulting output parameter is read and saved at the tool for working the soil, and the at least one input variable is compared to the resulting output parameter, whereby a soil working value is ascertained and saved.
The invention relates to a ground-working machine and a method for producing wall panels, with the ground-working machine having at least two elongate drilling and mixing tools arranged parallel to each other, which comprise a rod-form base body, on which a first screw conveyor and at least one second screw conveyor are arranged, the second screw conveyor being axially spaced apart from the first screw conveyor. According to the invention it is provided that at least on one drilling and mixing tool at a lower end the first screw conveyor is formed with an outer diameter that is greater than an outer diameter of the second screw conveyor which is arranged above the first screw conveyor.
A measuring device for measuring a hole in the ground having at least one measuring probe having at least one measurement signal transmitter to transmit a measurement signal, at least one measurement signal receiver to receive the measurement signal reflected on a wall area of the hole, and an evaluation unit for determining a wall distance between the measurement signal transmitter and the wall area of the hole, wherein a measuring distance based on an assignment rule can be assigned to the received, reflected measurement signal. A calibrating device having at least one calibration element. The measurement signal transmitter transmits a calibration signal, which can be reflected on the calibration element, wherein the measurement signal receiver receives the calibration signal reflected on the calibration element. The evaluation unit changes and calibrates the assignment rule based on the calibration signal reflected and received by the calibration element.
E21B 47/08 - Mesure du diamètre ou des dimensions correspondantes des trous de forage
E21B 47/00 - Relevés dans les trous de forage ou dans les puits
E21B 47/01 - Dispositifs pour supporter des instruments de mesure sur des trépans, des tubes, des tiges ou des câbles de forageProtection des instruments de mesure dans les trous de forage contre la chaleur, les chocs, la pression ou similaire
E21B 47/022 - Détermination de l'inclinaison ou de la direction du trou de forage, p. ex. à l'aide de géomagnétisme
G01S 7/52 - Détails des systèmes correspondant aux groupes , , de systèmes selon le groupe
G01S 15/88 - Systèmes sonar, spécialement adaptés à des applications spécifiques
E21B 47/04 - Mesure de la profondeur ou du niveau du liquide
G01C 7/02 - Tracé de profils des surfaces du terrain
G01S 11/14 - Systèmes pour déterminer la distance ou la vitesse sans utiliser la réflexion ou la reradiation utilisant des ondes ultrasonores, sonores ou infrasonores
G01S 15/89 - Systèmes sonar, spécialement adaptés à des applications spécifiques pour la cartographie ou la représentation
86.
FOUNDATION SURROUNDING MEANS AND METHOD FOR CREATING A FOUNDATION SURROUNDING MEANS
The invention relates to a foundation surrounding means and a method for creating a foundation surrounding means, wherein a substantially vertical surrounding wall formed by diaphragm wall panels is created in the ground, the vertical butt joints of which are sealed by a joint sealing band, the ground is excavated within the surrounding wall, and a substantially horizontal base plate is provided adjoining the surrounding wall. According to the invention, a receiving hole extending to the joint sealing band is introduced into the surrounding wall at at least one vertical butt joint between two adjacent diaphragm wall panels, and a sealing element for forming a horizontal seal is introduced into the receiving hole.
09 - Appareils et instruments scientifiques et électriques
37 - Services de construction; extraction minière; installation et réparation
42 - Services scientifiques, technologiques et industriels, recherche et conception
Produits et services
Software for specialised civil engineering, in particular for planning and implementing civil engineering measures. Conducting and implementation of construction measures, In particular specialist civil engineering. Planning of construction measures, in particular in civil engineering.
88.
DRILLING APPARATUS AND METHOD FOR PRODUCING A BORE
The invention relates to a drilling apparatus and a method for producing a bore in the bottom of a body of water from a floating platform (4) which is exposed to lifting motions, in particular a wave motion of the body of water (8), wherein the drilling apparatus comprises a drill string (10) which comprises at least one drill string element (12, 14, 15, 16) which is displaceable in the axial direction and at least one abutment strip (20, 22) which extends in the axial direction and is in engagement for torque transmission with the formation of a contact surface. The drilling apparatus further comprises a carrier device (30) along which the drill string is substantially vertically displaceable, and a drilling drive (40) for applying a torque to the drill string. The drilling apparatus according to the invention is characterized in that a control unit (50) is provided which is designed to control and reduce the torque of the drilling drive during the drilling operation to a threshold value at which the at least one drill string element is further axially displaceable to compensate for lifting motions when there is friction on the contact surface.
E21B 7/128 - Forage sous l'eau à partir d'un support flottant comportant une base guide indépendante ancrée au fond de l'eau
E21B 15/02 - Supports pour la machine de forage, p. ex. tours de forage ou mâts de forage spécialement adaptés au forage sous l'eau
E21B 17/07 - Joints télescopiques permettant de faire varier les longueurs de trains de tigesAmortisseurs
E21B 19/09 - Appareils pour faire avancer les tiges ou les câblesAppareils pour augmenter ou diminuer la pression sur l'outil de forageAppareils pour compenser le poids des tiges spécialement adaptés au forage des formations sous l'eau à partir d'un support flottant utilisant des compensateurs de houle supportant le train de tiges
E21B 41/00 - Matériel ou accessoires non couverts par les groupes
E21B 44/00 - Systèmes de commande automatique spécialement adaptés aux opérations de forage, c.-à-d. systèmes à fonctionnement autonome ayant pour rôle d'exécuter ou de modifier une opération de forage sans l'intervention d'un opérateur humain, p. ex. systèmes de forage commandés par ordinateurSystèmes spécialement adaptés à la surveillance de plusieurs variables ou conditions de forage
89.
DRILLING APPARATUS AND METHOD FOR PRODUCING A BORE FROM A FLOATING PLATFORM
The invention relates to a drilling apparatus and a method for producing a bore in the bottom of a body of water from a floating platform (4) which is exposed to lifting motions, in particular a wave motion of the body of water (8), wherein the drilling apparatus comprises a drill string (10) which comprises at least one drill string element (12, 14, 15, 16) which is displaceable in the axial direction and at least one abutment strip (20, 22) which extends in the axial direction and is in engagement for torque transmission with the formation of a contact surface. The drilling apparatus further comprises a carrier device (30) along which the drill string is substantially vertically displaceable, and a drilling drive (40) for applying a torque to the drill string. The drilling apparatus according to the invention is characterized in that a control unit (50) is provided which is designed to control and reduce the torque of the drilling drive during the drilling operation to a threshold value at which the at least one drill string element is further axially displaceable to compensate for lifting motions when there is friction on the contact surface.
E21B 41/00 - Matériel ou accessoires non couverts par les groupes
E21B 44/00 - Systèmes de commande automatique spécialement adaptés aux opérations de forage, c.-à-d. systèmes à fonctionnement autonome ayant pour rôle d'exécuter ou de modifier une opération de forage sans l'intervention d'un opérateur humain, p. ex. systèmes de forage commandés par ordinateurSystèmes spécialement adaptés à la surveillance de plusieurs variables ou conditions de forage
E21B 7/128 - Forage sous l'eau à partir d'un support flottant comportant une base guide indépendante ancrée au fond de l'eau
E21B 15/02 - Supports pour la machine de forage, p. ex. tours de forage ou mâts de forage spécialement adaptés au forage sous l'eau
E21B 17/07 - Joints télescopiques permettant de faire varier les longueurs de trains de tigesAmortisseurs
E21B 19/09 - Appareils pour faire avancer les tiges ou les câblesAppareils pour augmenter ou diminuer la pression sur l'outil de forageAppareils pour compenser le poids des tiges spécialement adaptés au forage des formations sous l'eau à partir d'un support flottant utilisant des compensateurs de houle supportant le train de tiges
90.
Filling tube for producing a column of filling material in the ground as well as device and method related thereto
A filling tube for producing a column of filling material in the ground with a tube body. A closing device has at least one support element, which is arranged in a central region at a lower end of the tube body, and, in a closed position, closing flaps rest against the at least one support element.
A filling tube for producing a column of filling material in the ground with a tube body. A closing device has at least one support element, which is arranged in a central region at a lower end of the tube body, and, in a closed position, closing flaps rest against the at least one support element.
The invention relates to a measuring apparatus (1) for measuring a hole (3) in the ground. This measuring apparatus has at least one measurement probe (10) that can be lowered into the hole and that has at least one measurement signal transmitter (12) for transmitting a measurement signal and at least one measurement signal receiver (14) for receiving the measurement signal reflected at a wall region (5) of the hole. The measuring apparatus further has an evaluation unit for determining a wall distance between the measurement signal transmitter and the wall region of the hole, the received reflected measurement signal being able to have a measurement distance associated with it on the basis of an association rule. There is further provision for a calibration device that is connected to the measurement probe and that has at least one calibration element (22). The measurement signal transmitter is designed to transmit a calibration signal that is reflectable at the calibration element, the measurement signal receiver being designed to receive the calibration signal reflected at the calibration element. The evaluation unit is designed to change and calibrate the association rule on the basis of the calibration signal reflected and received from the calibration element.
E21B 47/022 - Détermination de l'inclinaison ou de la direction du trou de forage, p. ex. à l'aide de géomagnétisme
E21B 47/08 - Mesure du diamètre ou des dimensions correspondantes des trous de forage
E21B 47/01 - Dispositifs pour supporter des instruments de mesure sur des trépans, des tubes, des tiges ou des câbles de forageProtection des instruments de mesure dans les trous de forage contre la chaleur, les chocs, la pression ou similaire
E02D 5/34 - Pieux en béton ou analogue coulés en place
E02D 5/18 - Rideaux de palplanches ou parois similaires faits uniquement de béton coulé sur place
G01S 7/52 - Détails des systèmes correspondant aux groupes , , de systèmes selon le groupe
G01S 15/88 - Systèmes sonar, spécialement adaptés à des applications spécifiques
G01S 15/89 - Systèmes sonar, spécialement adaptés à des applications spécifiques pour la cartographie ou la représentation
37 - Services de construction; extraction minière; installation et réparation
Produits et services
Building elements not of metal, in particular foundation
elements, foundation piles and bored piles. Civil engineering construction, namely, preparation of
foundation works, foundation piles and bored piles.
The invention relates to an earth working apparatus having an undercarriage which is designed as a running gear, and an upper carriage which is supported in a rotatable manner on the undercarriage and has a driver's cab as well as a drive motor for the undercarriage. According to the invention, between the undercarriage and the upper carriage an extension segment is arranged, through which a vertical distance between the undercarriage and the upper carriage is extended. On the extension segment between the undercarriage and the upper carriage a support means for tilt protection is mounted. The invention furthermore relates to a method for earth working with an earth working apparatus of such type.
E21B 7/02 - Appareils de forage caractérisés par des moyens de transport terrestre, p. ex. montés sur des patins ou des roues
E21B 43/10 - Mise en place de tubages, filtres ou crépines dans les puits
E02D 17/13 - Fouilles de fondationsOutillage pour faire ces fouilles
E02F 3/20 - DraguesEngins de terrassement entraînés mécaniquement avec des roues excavatrices tournant autour d'un axe et outils qui ne font qu'ameublir la terre
A ground working tool comprising a tubular base body with an inner receiving space for receiving a cylindrical core of solid ground material, connector mechanism for connecting the tubular base body with a rotary drive and locking mechanism for locking the core in the receiving space of the tubular base body. The locking mechanism involves at least one locking unit having a guide rail being disposed at an inner side of the tubular base body and arranged with a deviation angle relative to a tangential direction of the tubular base body and the locking unit further comprises at least one locking element, which is moveably mounted on the guide rail between a radially outer releasing position and a radially inner locking position, in which the core is clamped within the receiving space by means of the at least one locking element.
The invention relates to a method and to a device for constructing a foundation, wherein a foundation pipe (1) is impact-driven into a ground. According to the invention, prior to impact driving by means of a drilling tool (22), the drill diameter of which is substantially smaller than a diameter of the foundation pipe (1), at least one bore (5) is made in the ground in the circumferential region of the foundation pipe (1) to be inserted. The ground material removed during drilling substantially remains in the bore (5). The invention further relates to a foundation having a foundation pipe (1) produced accordingly.
The invention relates to a cleaning device for cleaning a bottom of a borehole in the ground and also to a method for creating a bored pile in a borehole. The cleaning device has a pumping means, through which sedimented ground material in the region of the bottom of the borehole can be sucked away via a suction opening and can be discharged from the borehole via a suction line. At least one flushing nozzle is provided, through which a flushing jet can be produced, which exits the cleaning device and flushes sedimented ground material from the bottom of the borehole. A bored pile can then be produced in a thus cleaned borehole.
The invention relates to a method and to a device for creating a foundation element in the ground, wherein ground material is removed by means of a drilling tool and a borehole is created, into which a pile pipe and a curable medium are introduced. The borehole is created having a boring diameter that is greater than an outside diameter of the pile pipe by a specified amount, wherein an annular space is formed between a borehole wall and an outer face of the pile pipe. The removed ground material is conveyed in an interior of the pile pipe, while the annular space is kept substantially free of removed ground material. The curable medium is introduced into the annular space in order to anchor the pile pipe in the ground.
The invention relates to a drilling tool for earth drilling with a drill rod element which can be connected to a rotary drive and can be driven in a rotating manner about a drilling axis, a frame-like housing and at least one removal tooth which is supported in a radially adjustable manner in the housing between a retracted position in the housing and an operating position, in which the at least one removal tooth projects radially from the housing.
Furthermore, on the drill rod element in the housing a transmission mechanism is arranged, through which a stroke and/or rotational movement of the drill rod element can be translated into a radial movement for radial adjustment of the at least one removal tooth.
E21B 3/02 - Moyens d'entraînement de surface pour forage par rotation
E21B 10/32 - Trépans avec une partie pilote, c.-à-d. trépans comportant un organe coupant piloteTrépans pour élargir le trou de forage, p. ex. alésoirs à organes coupants expansibles
E21B 7/00 - Procédés ou matériels particuliers pour le forage
The invention relates to an earthworking tool, comprising an undercarriage, which is disposed as a chassis, and a superstructure, which is rotatably mounted on the undercarriage and which has a driver compartment and a drive motor for the undercarriage. A extension segment is arranged between the undercarriage and the superstructure, by means of which a vertical distance between the undercarriage and the superstructure can be extended. A support device to prevent tipping is provided on the extension segment between the undercarriage and the superstructure. The invention further relates to a method for earthworking by means of such an earthworking device.
