EP1428972A2 - Device with at least one drilling machine - Google Patents

Abstract

The arrangement has a rod (11) held so as to be axially movable by a drive device positioned on the floor of a building and with an end part (140) and a supporting part (160) enclosing an elastic element (15) and movable relative to each other under force action. The supporting part can be pressed against the ceiling of the building by the drive device by moving the end part and the at least one machine (10) can be moved against the ceiling or a wall.

Description

The invention relates to a device with at least one electrically or pneumatically driven machine, in particular a drilling or bolt-setting machine, according to the Preamble of claim 1.

For laying electrical cables and busbars in Buildings and tunnels use mounting systems as they do in the LANZ OENSINGEN AG product catalog from August 2001 are described (see for example pages 56-59 and 78ff., Installation examples of platforms or cable trays). such Mounting systems are as shown in the catalog mentioned mounted on the ceiling and on the walls, whereby to fix the Mounting screws numerous holes in the ceiling or in the Walls must be provided. Mounting screws and corresponding holes often in pairs or in groups in provide a precise distance from each other.

The drilling of the holes is essential Part of the effort for installing the simple in itself mountable assembly systems. The craftsman who the Drilling holes must be in the appropriate places Position and climb a ladder, after which the holes can be manufactured manually using a drilling machine. There one precise installation of the mounting systems is required preferably marked with the holes to be provided.

Especially in larger buildings and tunnels where to create electrical connections over large distances are preparing for the installation of the Assembly systems take a lot of time. Because of the manual Manufacturing the bores often occur undesirable Deviations of the holes from the target positions on why corrective drilling is often necessary after the start of assembly.

Devices for machining holes in the Underground mining are used because of their size and Weight cannot be used for the work described. Out DE 36 34 502 A1 is one such example Anchor drilling device known for mounting on an in Mining machine used is suitable. at this device is a drill along one attached to a carrier slidable carriage.

The arrangement of a hand drill at first telescopically extendable tube, would allow this in to move the work area. However, could Drilling in the ceiling can hardly be carried out precisely. The Drilling holes in walls would be impossible. It would also be ergonomic to work with one Device not possible.

The present invention is therefore based on the object an inexpensive to manufacture, simple and ergonomic advantageously manageable device with at least one electrically or pneumatically driven machine, in particular a drilling machine or a bolt-setting machine, to create, by means of operations on ceilings or walls of buildings or tunnels can be carried out precisely.

In particular, a device is to be created which allows Operations such as drilling or the Setting bolts, at a height of two to three meters without Execute ladder precisely.

These tasks are solved with a device that the features specified in claim 1. advantageous Embodiments of the invention are in further claims specified.

The one with at least one electric or pneumatic driven machine, such as a drill or a bolt-setting machine, provided according to the invention Device has a linkage, which on the one hand from one that can be positioned on the floor of a building Drive device held axially displaceable, and on the other hand provided with an end part and a support part which is an elastic element, preferably one Include spiral spring and therefore under the action of force are mutually displaceable. The linkage, the end part or the support part is with a holder for the at least connected a machine so that the support part through Moving the end part against the ceiling of the building can be pressed and the at least one machine by another Moving the end part against the building ceiling or one Building wall is movable.

The device is brought into the ceiling or wall area, in which the operations are to be carried out. Before the Operation is performed, the linkage is against the Covered building ceiling, the end part of the linkage Support part by means of the elastic element against the ceiling presses so that the linkage is braced as it continues is led against the ceiling.

If the holder for the at least one machine is attached directly to the boom or to its end part, the at least one machine after tightening the Linkage continued against the ceiling until, for example the drill inserted into the machine by the corresponding one Mass has penetrated the ceiling or a bolt is inserted can be.

However, the bracket can also be arranged on the support part and for displaceable storage of the at least one machine suitable so that the axially moving linkage or the end part, during or after tensioning the boom, at least a machine by means of, for example, a lever at right angles to the axis of the boom against a wall until the Drill has penetrated into it by the appropriate amount or a bolt can be placed.

By means of the support part and the elastic element that can The rods are therefore braced stably, with the support part and the elastic element or the spiral spring in such a way are designed that after stabilization of the boom there remains a spring travel that allows the drill to move around the insert the required measure into the ceiling or into the wall or the stud setting machine to the surface to be machined to apply.

The support part is on the outside facing away from the linkage with holding elements such as claws, tips or edges, provided that with relatively little force in the ceiling like this can be pressed in that the support part cannot be moved, possibly rotatably, is held.

A solid base construction for holding the boom is therefore not necessary. Tensioning the boom allows precise due to the stable holding of the drill and safe execution of the drilling or bolt setting process.

The stable holding is particularly necessary because Drill when hitting rebar in concrete ceilings immediately move to the side, after which the borehole is no longer on intended place arises.

It is particularly advantageous that the bracing process and the for carrying out the drilling or bolt setting process necessary moving the at least one machine with the same functional parts of the device are performed.

It is also advantageous that the at least one machine always only comes into operation when the clamping process takes place and vice versa the tensioning process never ends when the at least one machine is still in operation.

The device according to the invention is simple and thus inexpensive to manufacture. The linkage, the detachable or is firmly connected to the end part, preferably consists of two movable against each other and in different Positions of mutually lockable linkage parts, such as Pipes, rods, L, T or U profile parts, so that it is with approx. few steps of the present room height can be customized.

The end part of the linkage and the support part are preferred mutually axially slidably supported and, if necessary not rotated against each other. Because of that they are Linkage, the end part, the coil spring and the support part only axially displaceable against each other. A tilting of the boom when attaching the support to the ceiling locked out. It is also important that the least a machine cannot turn around the axis of the boom, what through appropriate guide means such as axial Guide edges, guide cams and guide grooves, which on End part and are arranged on the support part is prevented.

For this purpose, the support part or the end part preferably has one hollow cylindrical body on which to receive the elastic element and for full or partial Inclusion of the piston-shaped end part or the support part serves. When the boom is extended, the support part is therefore pressed against the ceiling, whereupon the end part in the Support part or the support part moved into the end part, and the coil spring is increasingly compressed.

The end part and the support part are preferably such interconnected that the support member and the coil spring kept stable even after the boom was relaxed are. For example, one with the support part connected or connectable flange ring or at least one Safety lever provided, by means of which the end part is held.

The coil spring has in this preferred embodiment the device therefore has a spring travel with 3 sections. The 1st section of the route is used to preload the coil spring and thus for fixing the end part and the support part. The second. Section of the path serves to tension the boom and the 3rd Path section serves to advance the at least a machine around that to perform the operation required measure.

The device can be constructed particularly simply if an external thread on the linkage to accommodate the with a End part provided with an internal thread and / or for receiving Mounting rings is provided, by means of which the holder for the at least one machine can be mounted on the linkage. By The at least one machine can rotate the assembly rings axially shifted and thereby adjusted in a simple manner become.

In a preferred embodiment of the device at least one machine whose axis of action (e.g. drilling axis) is aligned parallel to the axis of the boom on which Sliding bracket and in the set positions fixable so that different distances between the mentioned axes or between several axes of action are adjustable.

In a further preferred embodiment of the device is the axis of action of the at least one machine aligned perpendicular to the axis of the boom, so that Linkage strained between floor and ceiling and at least a machine can be guided against an adjacent wall. For this purpose, the at least one machine is on the in this case preferably connected to the support member bracket slidably mounted and by means of at least one on both sides pivoted lever with the linkage or the end part connected so that a displacement of the end part along the Axis of the linkage a displacement of at least one Machine parallel to its axis of action.

To adjust the height of the preferably perpendicular to The support part consists of two axially displaceable parts, the first of which to support the ceiling and the second to hold the Axis of action serves. The second part can therefore be such adjusted, for example screwed against the first part that the desired height of the axis of action results.

To indicate where the drilling axis is in the ceiling or in the wall runs into it is at the end part, support part or at the Bracket a possibly fold-out and / or adjustable aiming device provided. Before the device is clamped, can therefore be marked if necessary Position to be targeted. The jobs to be processed preferably marked or punctually by means of a laser device illuminated.

The device can be equipped with various drive devices be provided by means of which causes the boom to be raised becomes. This can be done manually or by a motor Spindelantrieb (see Dubbel, paperback for the Mechanical engineering, 17th edition, Springer Verlag, Berlin 1990, page U41, Figure 96), a manually or motor-operated Lever drive or corresponding fluidic drive means be provided.

For actuating the at least one machine and one motor drive at least one switch is provided. For example, the at least one machine and the Drive for the boom at the same time by means of a switch put into operation. However, if necessary, a separate one Control of the drive unit and the at least one Machine should be provided.

In a preferred embodiment there is also a optionally adjustable distance measuring device provided, which, when bumping into the ceiling, either deflects the Mechanically limited boom, or operated a switch, by means of which the drive stopped or the Direction of displacement is turned.

The device according to the invention is preferably mobile designed. For example, doing this manually becomes easy sliding cart or cart used.

Fig. 1a-c

in verschiedenen Arbeitspositionen eine erfindungsgemässe Vorrichtung 1 mit einem von einer Antriebsvorrichtung 18 angetriebenen Gestänge 11, an dem eine mit einer Bohrmaschine 10 verbundene Halterung 12 und ein Endteil 14 angeordnet sind, welches über eine Spiralfeder 15 mit einem Stützteil 16 verbunden ist,

Fig. 2a-b

Querschnitte durch das aus zwei Teilen 111, 112 bzw. 111', 112' bestehende Gestänge 11 von Figur 1,

Figur 3

die erfindungsgemässe Vorrichtung 1 mit Laufrädern 191 und vorzugsweisen Ausgestaltungen des Endteils 140 und des Stützteils 160, die durch Einsatz entsprechender Führungsmittel nur axial gegeneinander verschiebbar sind,

Figur 4

das Gestänge 11 mit einem aufgesetzten Endteil 14 und das Stützteil 160 in einer vorzugsweisen Ausgestaltung mit einer Zielvorrichtung 165 und zum Eingreifen in die Decke dienenden Krallen 161,

Figur 5

eine vorzugsweise Ausgestaltung der Vorrichtung 1 mit zwei Bohrmaschinen und dem Gestänge 11 mit einem Gewinde 115, welches zur Aufnahme von zum Fixieren der Halterung 12 vorgesehenen Montageringen 122 und zur Aufnahme des Endteils 140 dient,

Figur 6

einen zum Verfahren der Vorrichtung 1 dienenden Karren 19 mit einer manuell betätigbaren Vorrichtung 18 zum Antreiben des Gestänges 11,

Figur 7

in vorzugsweiser Ausgestaltung ein Stützteil 160 mit zwei gegeneinander verschiebbaren Teilen 160A, 160B von denen das erste Teil 160A zum Halten der gegen eine Wand 4 verschiebbaren Bohrmaschine 10 und das zweite Teil 160B zum Abstützen an der Decke 2 dient, und

Figur 8

eine weitere vorzugsweise Ausgestaltung der Vorrichtung 1 bei der die wenigstens eine Maschine 10 direkt auf der Antriebsvorrichtung 18 bzw. auf einem von der Antriebsvorrichtung 18 angetriebenen Basiselement 180 abgestützt sind.

The invention is explained in more detail below with reference to drawings. It shows:

1a-c

In various working positions, a device 1 according to the invention with a linkage 11 driven by a drive device 18, on which a holder 12 connected to a drilling machine 10 and an end part 14 are arranged, which is connected to a support part 16 via a spiral spring 15,

2a-b

Cross sections through the linkage 11 of FIG. 1 consisting of two parts 111, 112 and 111 ', 112',

Figure 3

the device 1 according to the invention with impellers 191 and preferred configurations of the end part 140 and the support part 160, which can only be displaced axially relative to one another by using corresponding guide means,

Figure 4

the linkage 11 with an attached end part 14 and the support part 160 in a preferred embodiment with a target device 165 and claws 161 serving to engage in the ceiling,

Figure 5

a preferred embodiment of the device 1 with two drilling machines and the linkage 11 with a thread 115, which serves to hold mounting rings 122 provided for fixing the holder 12 and to hold the end part 140,

Figure 6

a cart 19 used for moving the device 1 with a manually operable device 18 for driving the linkage 11,

Figure 7

in a preferred embodiment, a support part 160 with two mutually displaceable parts 160A, 160B, of which the first part 160A serves to hold the drilling machine 10 displaceable against a wall 4 and the second part 160B serves to support the ceiling 2, and

Figure 8

a further preferred embodiment of the device 1 in which the at least one machine 10 is supported directly on the drive device 18 or on a base element 180 driven by the drive device 18.

Figures 1a to 1c show the basic structure of a Device 1 according to the invention, which one of a Drive device 18 has driven linkage 11 the one connected to a drill 10 bracket 12 and an end part 14 are attached, which has an elastic Element 15 is connected to a support member 16. The elastic element 15 is preferably a spiral spring. However, the use of further means is also possible Force application of compressible devices. If a fluidic drive is used in the drive device, For example, a fluid-assisted piston can be used become.

In the embodiments of the device 1 shown, this is each provided with one or two drilling machines 10. Of course, other machines and devices, such as Bolt setting machines, can be used.

Figure 1a shows the erected on the floor 3 of a building Device 1 before start-up. In the shown One embodiment includes the drive device 18 Electric motor 50, a transmission 51 and a control unit 52, which is connected to three switches 53, 54, 55. The first Switch 53 is used to start up the electric motor 50, by means of which the linkage 11 is vertically displaceable. The second switch 54 is used to start up the drilling machine 10. The third switch 55, which serves as a limit switch, is arranged within a distance measuring device 550, by means of which controls the deflection of the linkage 11. As soon as the distance measuring device 550 hits the ceiling 2 the switch 55 is actuated and the electric motor is stopped or its direction of rotation changed.

Of course, the electric motor 50 and the Drill 10 even with a single switch, e.g. Switch 53 to be put into operation.

FIG. 1b shows the device 1 after the linkage 11 was extended until the top with claws 161 provided support part 16 is pushed to the ceiling 2. By Further extension of the rod 11 is the spiral spring 15 compressed, whereby the device 1 along its Longitudinal axis x is kept stable, and that in the drill 10 10 inserted drill bits penetrate precisely into the ceiling 2 can until the distance measuring device 550, as in Figure 1c shown, abuts the ceiling 2 and thereby the further Extension of the linkage 11 either mechanically or by Operation of the switch 55 prevented.

It can be seen from FIGS. 1a to 1c that the Device 1 can be easily built, and by that Tension between floor 3 and ceiling 2, one at the same time enables fast and precise execution of the drilling operations.

In addition to the linkage 11, the device 1 has two rod parts 111, 112 and 111 'which can be displaced relative to one another, 112 'on in the selected positions by means of a shaft 113 are mutually fixable. This allows the Disassemble device for transportation in cars, and on the Set up the construction site at the desired height.

Figures 2a and 2b show a cross section through preferably configured rod parts 111, 112 or 111 ', 112 'in the area of section line A <--> shown in FIG. 1a A. The linkage parts 111, 112 shown in FIG. 2a have a hollow cylindrical and a cylindrical cross section on. The rod parts 111 ', 112' shown in FIG. 2b point a U profile. There are also other profile elements, such as L or T-profile parts or slidable Hollow section parts can be used.

FIGS. 3a to 3c show the device according to the invention 1 with impellers 191 and preferred embodiments of the End part 140 and the support part 160, which by insert corresponding guide means only axially against each other are movable. By means of the wheels 191 Device 1 quickly moved between locations and on Be positioned in place.

The end part 140 shown in FIGS. 3a to 3c and the Support part 160 consist of slidable Cylinders which surround the spiral spring 15 on both sides. After the support member 160 hits the ceiling 2 the end part 140 therefore precisely along the displacement axis x guided.

Figure 4 shows the linkage 11 with an attached end part 14 and the support member 160 in a preferred embodiment with claws 161 for engaging in the ceiling, the cause the support member 160 after only a slight Pressing against the ceiling 2 stable, immovable and non-rotatable, is held.

The support member 160 is also provided with a target device 165 provided a lever 1650 with a longitudinal slot 1651 and has a target ring 1652 slidably mounted therein, which is adjustable in such a way that the Axis b of the drill 101 runs. The user can therefore Place target ring 1652 at a location marked on ceiling 2, after which the drilling takes place at this point.

The positions to be processed are marked preferably optically by means of a light beam 951 which is emitted by a laser device 95, for example. The Target device can therefore on the marked or illuminated Places are attached, creating a precise positioning the device 1 is achieved.

FIG. 5 shows the upper part in a preferred embodiment of the rod 11, which is provided with a thread 115, which is used to hold the holder 12 provided mounting rings 122 and for receiving the end part 140 serves. For assembling machines, for example from Drilling machines, a first mounting ring 122 is placed over the Thread 115 rotated, after which with two drilling machines 10 provided bracket 12, which comprises two cross struts 121 the linkage 11 is placed. The cross struts 121 have in in the middle a bore 1211 for the passage of the rod 11 and two slots 1212 on both sides, along which the Drills 10 can be mounted such that the drilling axes b1, b2 at a desired distance parallel to the axis x of the Linkage 11 are aligned. With a second mounting ring 122, the bracket 12 can then be fixed.

Then one with an internal thread and one Inner flange 1681 provided end ring 168 and then the internally threaded end portion 140 onto the Thread 115 turned. The end part 140 and the mounting rings 122 can be in the embodiment shown by means of Fix grub screws 141, which can be screwed into a groove 116 are, which extends axially to the linkage 11 via the thread 115.

The spiral spring 15 is then placed on the end part 140. Then the coil spring 15 and the end part 140 the support member 160 provided with a hollow cylinder 162 guided. The hollow cylinder 162 has an external thread, over which the end ring 168 is rotated so that the Support part 160 pulled down and the coil spring 15 slightly is biased.

FIG. 5 also shows two different configurations of one Device for adjusting the drilling depth. On the bracket 12 is a rod 551 aligned parallel to the rod axis x can be fixed in different positions using screws 552. Also shown is the dimension h by which the drill 101 into the Ceiling 2 can penetrate until rod 551 on ceiling 2 abuts and prevents the drill from advancing further. The Drilling depth can also be achieved using the one shown in FIG Adjustment rings 553 can be set, which on the End ring 168 abuts as soon as the maximum drilling depth is reached.

The end part 140 is laterally provided with lugs 144, which in Engage guide grooves 164 which extend axially on the Inside of the hollow cylinder 162 are provided. The Support part 160 is by means of the in the guide grooves 164th slidably mounted lugs 144 therefore non-rotatably, but axially kept slidable.

FIG. 6 shows a device used to carry the device 1 Vehicle 19 with a manually operable device 18 for Driving the linkage 11, which at the bottom in two separate bearing blocks 181, 182 stored is. The linkage 11 is driven by means of a Bearing 1832 pivoted lever 183, on the front a fork 1833 is provided, one with the linkage 11 connected and transverse thereto includes shaft 1834. By stepping on the back 1831 of the lever 183, this can Linkage 11 therefore raised and the drilling process after Commissioning of the drilling machine 10 can be carried out.

Equipped with two impellers 191 and a handle 192, Non-motorized vehicle 19 is of the type Sack carts built and can therefore be procured inexpensively.

FIG. 7 shows a support part 160 in a preferred embodiment with two support elements 160A which can be moved relative to one another, 160B of which the first support member 160A for holding the against a wall 4 movable drill 10 and that second support element 160B is used to support the ceiling 2. For this purpose, the first support element 160A is plate-shaped Provide bracket 1200, which is perpendicular to the axis x of the rod 11 has extending slot 1201, within that associated with the drill 10 and preferably on both sides of the bracket 1200 with fastening rings 103 provided shafts 1041, 1042 are slidably mounted. The protruding into the first support element 160A in the form of a piston End part 140 is by means of a shaft 1450 and one on both sides with bearing bodies 1451, 1452 provided lever 145 with the first shaft 1041 connected, and therefore shifts the Drill 10 against the wall 4 as soon as the linkage 11 with the end portion 140 is raised. So that with the end part 140 connected shaft 1450 can be shifted upwards the first support member 160A also has a guide slot 168 provided.

To avoid a torque acting on the end part 140 can also drive on both sides of the end part 140 the lever 10 serving lever 145 are provided. To the The support member 160 can absorb torques on the ceiling 2 also wider, or with two or more support elements be supported.

The height adjustment of the perpendicular to wall 4 Drilling axis b3 is done by adjusting the with a Internally threaded second support member 160B, which on the first support element provided with an external thread 160A is attached.

The device according to the invention was preferred in Embodiments described and shown. Based on However, the teaching according to the invention is diverse Professional configurations of the described device 1 realizable. The device allows in particular the Use of different types of machines and devices, in particular drilling, bolt-setting or striking machines; the for example, electrically or fluidically, in particular pneumatic, driven. For example, a two-drill drill can be used, such as them in U.S. U.S. Patent 5,205,682. Furthermore, the Parts of the device, in particular the drive means, adjusted if necessary.

In particular, there are various configurations of all Device parts, the vehicle 19, the drive device 18, the linkage 11, the bracket 12, 12, 1200, the end part 14, 140, the elastic element 15 and the support part 16, 160 can be implemented in a professional manner. For example parts of the linkage 11 and the end part 14, 140 can also be made in one piece.

In the device 1 shown in FIG. 8, the rods 11 and the at least one machine 10 from one of the Drive device 18 driven base element 180 supported. This has the advantage that the heavy machines 10 are not held on top of the linkage 11 and with relative must be held with great force. Instead they are Machines 10 each by means of an extension element 1011 connected to a tool 101, by means of which the ceiling 2 is processed. This extension element, for example a simply designed shaft is preferably of the linkage 11, from the end part 14, or from the support part 16 rotatable and / or slidably held so that the tool 101, for example, the drill can be positioned precisely. Again, the auxiliary devices described are for example a laser device or a lamp 95 is advantageous used.

Various advantages of being ergonomically advantageous and safe to be operated device according to the invention are in their Use more clearly.

Claims (13)

Device (1) with at least one machine (10), in particular a drilling or bolt-setting machine, characterized in that a linkage (11) is provided which is held axially displaceably on the one hand by a drive device (18) which can be positioned on the floor (3) of a building , and on the other hand is provided with an end part (14; 140) and a support part (16; 160) which enclose an elastic element (15) and are therefore displaceable against one another under the action of force, the linkage (11), the end part (14) , the support part (16) and / or the drive device (18) is provided with a holder (12; 120; 1200) for the at least one machine (10), so that by means of the drive device (18) the support part (16; 160) can be pressed against the ceiling (3) of the building by moving the end part (14; 140) and the at least one machine (10) can be moved against the building ceiling (3) or a building wall (4). Device (1) according to claim 1, characterized in that the preferably removable linkage (11) from two mutually displaceable and mutually lockable linkage parts (111, 112, 111 ', 112') such as pipes, rods, L-, T - Or U-profile parts. Device (1) according to claim 1 or 2, characterized in that the end part (140) and the support part (160) are axially displaceable relative to one another and are not rotatable relative to one another. Device (1) according to claim 3, characterized in that the support part (160) has a hollow cylindrical body (162) which serves to receive the elastic element (15) and to fully or partially receive the piston-shaped end part (140) or that End part (140) has a hollow cylindrical body which serves to receive the elastic element (15) and to completely or partially receive the piston-shaped support part (160) and / or that the support part (160) and / or the end part (140) with at least an axially extending groove (115) is provided, along which at least one cam (144) of the end part (140) or the support part (160) is guided. Device (1) according to one of claims 1 to 4, characterized in that the support part (160) is provided or lockable with a closing piece (168) by which the end part (140) is held on the side facing away from the elastic element (15) is. Device (1) according to any one of claims 1 to 5, characterized in that the linkage (11) has an external thread (115) which serves to receive the end part (140) provided with an internal thread and / or to receive with an Internally threaded mounting rings (123, 124), by means of which the bracket (120) can be mounted on the linkage (11). Device (1) according to one of claims 1 to 6, characterized in that the at least one machine (10) whose axis of action (b1; b2) is aligned parallel to the axis (x) of the linkage (11) on the holder (12 , 120) can be moved and fixed in the set positions, so that different distances between the axes mentioned (x; b1, b2) can be set permanently. Device (1) according to one of Claims 1 to 6, characterized in that the at least one machine (10) is mounted displaceably on the holder (1200) connected to the supporting part (160) and by means of at least one lever (145) rotatably mounted on both sides is connected to the linkage (11) or the end part (140) such that a displacement of the end part (140) along the axis (x) of the linkage (11) brings about a preferably perpendicular displacement of the machine (10) along the axis of action (b3) , Device (1) according to one of claims 1 to 8, characterized in that the support part (160), which may consist of two mutually displaceable support elements (160A, 160B), on the outside of the linkage (11) with holding elements (161), such as Claws, tips or edges are provided, which can be pressed into the ceiling (2) in such a way that the support part (160) is held immovably, possibly non-rotatably. Device (1) according to one of claims 1 to 9, characterized in that the end part (140), the support part (160) or the holder (12, 120, 1200) are provided with an optionally adjustable target device (165), preferably a laser device or a lamp (95) is provided, by means of which the areas to be processed on the wall or the ceiling (2) can be optically marked. Device (1) according to one of Claims 1 to 10, characterized in that the drive unit (18) , which is preferably arranged on a vehicle (19) or integrated in a vehicle (19), has means (181, 182) for displaceable mounting and means such as Lever (183), fluidic drive means, electric motor (50), transmission (51) and control unit (52) for manual or automatic displacement of the linkage (11) and the machine (10). Device (1) according to one of claims 1 to 11, characterized in that a preferably adjustable distance measuring or setting device (550, 551, 553) is provided, by means of which the deflection of the linkage (11) is mechanically limited or another of the control of the Drive device (18) serving switch (55) is actuated as soon as the at least one machine (10) has been displaced by the desired dimension (h) along its axis of action (b1; b2; b3). Device (1) according to one of claims 1 to 12, characterized in that the linkage (11) and the at least one machine (10) are supported by a base element (180) driven by the drive device (18), the machine (10 ) by means of an extension element (1011), which is preferably rotatably and / or displaceably held by the linkage (11), by the end part (14), or by the support part (16), with a tool (101).

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