DE102006002576A1 - Functional surfaces apparatus e.g. for practicing golf strokes, has two elements which are mounted rotatably together or on each other, are of wedge-shaped design and connected to rotary bearings - Google Patents

Abstract

The apparatus has two elements (1-10) which are mounted rotatably together or on each other, are of wedge-shaped design and connected to rotary bearings, with a bearing surface (L1- L4) and functional surface (F1, F2, F3, F4, F5, F8) which each converge at an acute angle. The position with respect to each other can be adjusted by relative rotation. The bearing surfaces face each other, the functional surfaces of the wedge-shaped elements face away from one another and the position of the functional surfaces of the wedge-shaped elements with respect to one another can be adjusted.

Description

The The present invention relates to a device for providing of two functional surfaces, whose position is adjustable to each other.

in the State of the art are different, two functional surfaces with adjustable position providing devices for a variety of Applications known. Such devices are in particular for setting angle, oblique and / or tilting plies between used two levels, which are usually directly through the functional areas and / or indirectly by corresponding on and / or on the functional surfaces arranged functional elements to be provided. For adjustability of the position of the functional surfaces or the on and / or on these provided functional elements to each other Among other things, the devices have in particular perpendicular to one another standing turning or tilting axes, ball joints and / or like the taking of different angular positions enabling Means up.

application find appropriate devices, for example, in and / or for facilities that orientation of their position in space, for example antennas, Solar collectors or the like, means for determining and / or setting of angular positions, for example so-called protractors or Angle gauges or the like, bogies, turntables, turrets, play equipment, for example Carousels or the like for entertainment rides, and as connecting and / or construction element, for example for plate and / or profile elements, for example as a connecting element for plasterboard for the drywall, As a construction and connection element for profiles for exhibition stands, tent racks or the like, and / or similar devices.

In dependence The particular application is sometimes at least one of the functional surfaces in terms their location over the respective Drehbeziehungsweise tilt axis, the ball joint and / or the like Construction means by means of a drive at least partially automatic adjustable. Application finds such a configuration, for example at institutions sometimes a tracking in terms of their location require, For example, antennas, solar panels or similar devices.

adversely in the previously known devices for providing two Functional surfaces whose Adjustable to each other is that the adjustability of the Location either only with large technical Effort and thus costly or not precise enough and / or not stepless is vornehmbar. Furthermore, suffice the corresponding hitherto known devices do not meet the demands made on them, occasionally high requirements with regard to one application Adjustability and maintenance or maintenance of precise angular positions, especially when using at least one drive for adjustment Devices.

Of the Invention is the object in view of this prior art based, a device of the type mentioned above the adjustability of the situation to improve, and in particular with simple and inexpensive Means a precise Adjustment and stable retention of layers of functional surfaces to each other to enable.

to technical solution With the present invention, a device for providing two functional surfaces, whose position is adjustable to each other, proposed which at least two on or on each other rotatably mounted, wedge-shaped elements, each having at an acute angle converging bearing surface and functional surface, the storage areas of the wedge-shaped Elements facing each other, the functional surfaces of the wedge-shaped Elements are facing away from each other and by relative rotation the wedge-shaped Elements against each other the location of the functional surfaces of the wedge-shaped elements is adjustable to each other.

By the inventive or mutually rotatably mounted, wedge-shaped elements is an adjustability of the position of the wedge-shaped Elements each provided functional surfaces to each other by simple relative rotation of the wedge-shaped Elements against each other. According to the invention, such a rotation angle change converted into a situation change, in particular inclination change. The invention is based on the finding that by use of the invention of at least two common providing the two functional surfaces cuneiform trained elements, wedge-shaped trained elements in the context of the present invention are in addition Wedges also wedge stumps and / or the like elements providing an inclined plane, on simple and inexpensive Way an adjustability of the position of the functional surfaces to each other by simply turning the on or rotatably mounted cuneiform educated elements is articulated.

advantageously, is by relative rotation of the wedge-shaped elements against each other the angle between the functional surfaces of the wedge-shaped elements adjustable.

In a further advantageous embodiment of the invention, the the peak formed by the converging bearing surface and functional surface opposing area a wedge-shaped element an angle of about 90 ° the storage area or the functional area of the wedge-shaped Element on. The use of wedge-shaped elements with a Angle of about 90 ° from the side the one formed by the convergence of the bearing surface and functional surface Tip is opposite surface in particular with regard to the production of the wedge-shaped elements a device according to the invention advantageous, since corresponding wedge-shaped elements by appropriate diagonal cutting or cutting to length a profile body, preferably a profile body can be produced with a round or square cross-section. Depending on desired Application and design consists of a corresponding profile body and thus a corresponding wedge-shaped Element of metal, plastic, wood or the like suitable Material. A further advantageous embodiment of the invention is characterized by at least one of a wedge-shaped element at an angle of about 90 ° the storage area and a wedge-shaped Element with an angle of approximately 90 ° to the functional surface existing Pair of wedge-shaped Elements. Corresponding pairs of wedge-shaped elements can thereby wedge-shaped Elements of different angles - so-called wedge angle - have. Embodiments with pairwise identical wedge angle are preferred. One corresponding pair wedge-shaped Elements is thus advantageously of a correspondingly shaped Cylinder, preferably with a round or square cross section, manufacturable. Another particularly preferred embodiment of the invention provides that at least two pairs of wedge-shaped elements on or on each other are rotatably mounted, wherein the mutually facing functional surfaces of the two pairs wedge-shaped Elements as storage area serve. Allow corresponding pairs of wedge-shaped elements so the embodiment of inventive devices with respect the adjustment options increased functionality.

A Preferred embodiment of the invention provides that the angle between the storage area and the functional area a wedge-shaped Element about 9 °, about 18 ° and / or is an integer multiple of about 9 ° and / or about 18 °. The usage of wedge-shaped Elements with an angle of about 9 °, about 18 ° and / or an integer Multiples of about 9 ° and / or about 18 ° between the storage area and the functional area of a wedge-shaped Elementes advantageously allows a change in position the functional surfaces to each other via a Twisting of the wedge-shaped elements against each other in defined degrees. When using two wedge-shaped Elements with an angle (wedge angle) of about 9 °, respectively a sum angle of about 18 °, between the storage area and the functional area is due to a relative rotation of the wedge-shaped elements against each other of 10 ° Angle between the functional surfaces adjustable by about 1 °. Accordingly, when using two wedge-shaped elements with a Each angle about 18 ° between the storage area and the functional area. at a relative rotation of the wedge-shaped elements against each other from about 10 ° one Position or angle change the functional surfaces of the Device adjustable to each other by about 2 °. at appropriate combination of wedge-shaped elements and corresponding Arrangement of the same on or on each other at angles of about 9 °, about 18 ° and / or an integer multiple from 9 ° or 18 °. are so by corresponding rotations of the wedge-shaped elements against each other Twists in terms of the position or the angle between the functional surfaces adjustable to each other. Particularly advantageous is the use of wedge-shaped Elements with an angle of about 9 °, about 18 ° or an integer multiple of 9 ° and / or about 18 ° due given by a rotation of a wedge-shaped element at 180 ° at half-turn based relations of an integer Multiple with respect to the angle (wedge angle) between the functional surface and the location area a wedge-shaped Element, preferably at the same wedge angles, and with respect to 360 ° of a full turn or corresponding integer parts of a full turn corresponding to 180 °, 90 °, 45 ° or the like Angle of rotation.

A further embodiment of the invention provides that the functional surface of one of the wedge-shaped elements is arranged on or on a base, preferably a base surface. Advantageously, the functional surface is rotatably mounted on or on the base. Depending on the application, the base for the wedge-shaped element of a device according to the invention can be provided by the ground, a frame arranged on the ground and / or by a base surface provided by a device. The base surface may be formed in particular by a parallel to the earth's surface or the ground extending reference surface. In this case, the base surface provided by a device may advantageously be designed to be engaging, if required, also an adjustable angle to the reference surface, ie the ground, the conical surface or the like surface. A corresponding base or base surface provided by a device can advantageously be provided by a rotary drive, for example by a drilling machine. The inventive, according to the drill connected or arranged on this device he allows so depending on the configuration of the functional surfaces a relation to a surface to be machined from the drilling direction an angle occupying working position.

A Further advantageous embodiment of the invention provides that the functional area of the free wedge-shaped Elementes a support, preferably for a wing, provides. The device according to the invention allows so by twisting the wedge-shaped elements against each other aligning the position of the wing relative to the base or Footprint.

A Further advantageous embodiment of the invention provides that the wedge-shaped Elements are infinitely rotated against each other. The stepless Rotatability of the wedge-shaped Elements against each other allows Advantageously, a comprehensive adjustability of the location of the functional surfaces the device according to the invention to each other.

A Another preferred embodiment of the invention provides that the wedge-shaped Elements gradually rotated by defined angles against each other are, preferably by angles of 1 ° to 15 °, more preferably by angle steps of 5 ° and / or 10 °. By a gradual adjustability of the wedge-shaped elements is advantageously a simplified operation or handling of the device according to the invention achievable, in particular with regard to the adjustability of defined Angular positions of the functional surfaces the device according to the invention to each other.

A further advantageous embodiment of the invention is characterized by at least one measure of the situation the functional surfaces the wedge-shaped Elements to each other, preferably the angle between the functional surfaces of wedge-shaped elements, and / or the rotation of the wedge-shaped elements against each other detecting and / or reproducing means. Capturing and playing back the Location of the functional surfaces the wedge-shaped Elements and / or the rotation of the wedge-shaped elements against each other allows advantageously a simplified operation and handling of the device according to the invention regarding the adjustability of the position of the functional surfaces. A advantageous embodiment of the invention provides that the measure of the situation the functional surfaces the wedge-shaped Elements to each other and / or the rotation of the wedge-shaped elements against each other mechanically and / or electronically detectable and / or reproducible is. Advantageously, the means comprises a scaled display, especially preferred by the head of the converging storage area and functional area opposing area at least one of the wedge-shaped Elements. By appropriate connection and arrangement of a display for reproducing the position of the functional surfaces of the wedge-shaped elements to each other and / or the rotation of the wedge-shaped elements against each other becomes the operation and handling of the device according to the invention further simplified, in particular because the corresponding position information be easily read by a user from the device can, in particular for or when adjusting the situation the functional surfaces to each other.

advantageously, is at least one pivot bearing between the wedge-shaped elements and / or the wedge-shaped Element and the base in one and / or in both directions fixable. Corresponding between or on the part of the storage areas of wedge-shaped Elements arranged bearings are advantageously as welz and / or plain bearings educated. To establish or block one and / or Both directions of rotation at least one of the wedge-shaped elements are advantageously Brakes or locking devices used. A further advantageous embodiment the bearing of the device according to the invention sees the use of slip and / or magnetic clutches as well freewheels or backstops in front.

According to one further advantageous embodiment of the invention, the device according to the invention at least one drive for rotating at least one wedge-shaped element around its pivot bearing, preferably an electric, pneumatic and / or hydraulic drive. In addition, the drive can also a manually operated one Drive, for example, be a hand crank, or directly by hand respectively. Advantageously, the drive comprises a on and / or Multi-stage gearbox for sub and / or translation of rotational movements on the at least one wedge-shaped Element. With appropriate use of locking devices, freewheels and / or backstops are Advantageously, at least two of the wedge-shaped elements of or can be driven individually and / or in combination with one drive. A further particularly preferred embodiment of the invention provides that the twisting of the wedge-shaped Elements against each other is controllable, preferably by means of at least a drive for rotating at least one wedge-shaped element about its pivot bearing. The controllability of the rotation of the wedge-shaped elements against each other includes a controller that controls all Measuring, control and / or control equipment includes, from a rotation of the wedge-shaped elements a change in position the functional surfaces too move. As part of the control are corresponding rotational movements and changes in position recorded, controlled and / or regulated.

A preferred embodiment of the invention provides that the device according to the invention as connecting and / or constructional element, preferably for plate and / or profile elements, is formed, including the free ends the functional surfaces attachable to and / or in elements to be connected, preferably solvable fastenable, have fastening means. One accordingly Connection and / or construction element formed device is advantageous for the drywall for arranging plate-shaped elements in certain Angular positions to each other and / or as a connecting element for tent poles or like profile elements used.

A Another preferred embodiment of the invention provides that the inventive device is designed as a protractor, including the free ends of the functional surfaces respectively with a leg forming, substantially perpendicular to the functional area are provided extending profile element. The corresponding one each Leg forming profile elements allow a on or Measuring angular positions corresponding to the profile elements applied with regard to your position of surfaces and / or bodies to be measured or like.

Further Details, features and advantages of the invention will become apparent below with reference to the embodiments illustrated in the figures of the drawing closer to the invention explained. Showing:

1a and b is a schematic side view of a basic embodiment of a device according to the invention and its adjustability ranges;

2a and b is a schematic side view of another basic embodiment of a device according to the invention and its adjustability ranges;

3a and b is a schematic side view of another basic embodiment of a device according to the invention and its adjustability ranges;

4a to f in a schematic schematic representation of the rotation of the wedge-shaped elements of a device according to the invention 1 within their adjustability ranges 1a and 1b ;

5a to c in a schematic, partially perspective schematic representation of the rotation of the wedge-shaped elements of another embodiment of a device according to the invention and

6a to c in a schematic, partially perspective schematic representation of the rotation of the wedge-shaped elements of another embodiment of a device according to the invention.

The 1a and 1b show in a schematic side view of an apparatus for providing two functional surfaces F1 and F2, the position of which is mutually adjustable by rotation against each other. For this purpose, the device in the present case has two wedge-shaped elements 1 and 2 serving wedge elements 1 and 2 on whose bearing surface L1 or L2 and functional surface F1 and F2 in each case at an acute angle α1 or α2, in the present case about 18 ° converge. The wedge-shaped elements 1 and 2 are present as rectangular wedge elements 1 and 2 formed, wherein the angle between the angle α1 or α2 opposite side or side surface G1 or G2 and the respective functional surface F1 or F2, in this case the angle γ, 90 °. The wedge elements 1 and 2 are rotatably supported with their bearing surfaces in L1 and L2, wherein the bearing surfaces L1 and L2 of the wedge elements 1 and 2 facing each other. Accordingly, the functional surfaces F1 and F2 of the wedge elements 1 and 2 turned away from each other. By relative rotation of the wedge elements 1 and 2 against each other, for example by turning the wedge element 2 opposite the wedge element 1 is the position of the functional surface F1 and F2 of the wedge elements 1 and 2 adjustable to each other. In this case, the angle between the functional surface F1 of the wedge element 1 and the functional surface F2 of the wedge element F2, in this case the angle β1, adjustable. At the in 1a shown position arrangement of the two wedge elements 1 and 2 the functional surfaces F1 and F2 of the wedge elements run towards one another 1 and 2 parallel to each other. By turning the wedge element 2 opposite the wedge element 1 is the functional area F2 tilted by the angle β1 relative to the functional area F1. In 1b is the wedge element 2 opposite the wedge element 1 rotated by 180 ° and, accordingly, the angle β1 between the functional surface F1 of the wedge element 1 and the functional surface F2 of the wedge element 2 ingested.

In 2a and 2 B is a further embodiment of a device for providing functional surfaces F3 and F4, the position of which is adjustable to each other, shown. The wedge-shaped elements 3 and 4 are present as wedge stumps 3 and 4 formed between the bearing surfaces L3 and L4 and the functional surfaces F3 and F4 of the wedge stumps 3 and 4 in each case the angle α3 or α4, in this case approximately 18 °, is given. By appropriate rotation of the truncated wedge 4 opposite the truncated wedge 3 is the position of the functional surface F4 of the wedge stump 4 opposite the functional surface F3 of the truncated wedge 3 in the present case changeable. The change in the position of the functional surface F4 relative to the functional surface F3 is effected by a change in the angle between the functional surface F3 and the functional surface F4, in the present case the angle β2 in FIG 2 B ,

At the in 3a and 3b illustrated embodiment of an apparatus for providing two functional surfaces F5 and F8 are four wedge-shaped elements in the form of wedges 5 . 6 . 7 and 8th , which are rotatably arranged, used. The wedges 5 and 6 are present at an angle α5 and α6 of about 18 °, while the wedges 7 and 8th have an angle α7 or α8 of about 9 °. The functional area F5 of the wedge 5 is present on the floor or a base area 9 rotatably mounted. The functional area F8 of the wedge 8th serves as a support for a bearing 11 mounted wing 10 , By twisting the wedges 6 and 8th opposite the wedges 5 respectively 7 is the device of the in 3a presented in the in 3b shown position, wherein between the functional surfaces F5 of the wedge 8th and the functional surface F8 of the wedge 8th the angle β3 is taken.

In the 4a to 4f is a schematic representation of the stepwise rotation of the wedge element 2 opposite the wedge element 1 shown. The above the wedge element 2 shown degree display shows the stepwise rotation of the wedge element 2 at. The below the wedge element 1 indicated degree indication shows the rotation of the wedge element 1 at. In the present case, that of the wedge element 1 not twisted. In the present case, a rotation of the wedge element 2 starting from the in 4a position shown by 360 ° in the in 4f shown position, corresponding to a full rotation of the wedge element 2 , In the individual steps of 4a to 4b , from 4b to 4c , from 4c to 4d , from 4d to 4e and from 4e to 4f becomes the wedge element 2 in each case by 45 ° clockwise relative to the wedge element 1 twisted.

In the 5a to 5c is a schematic, partially perspective schematic representation ( 5b and 5c ) the rotation of the wedge-shaped elements 1 and 2 a further embodiment of a device according to the invention shown. The 5a to 5c show the twist of the wedge-shaped element 2 opposite the wedge-shaped element 1 (from 5a to 5b ), with subsequent twisting (from 5b to 5c ) of both wedge-shaped elements 1 and 2 common to the base 9 ,

The device after the 5a to 5c points between the base 9 and the functional area 1 of the wedge-shaped element 1 , between the storage area 1 of the wedge-shaped element 1 and the storage area 2 of the wedge-shaped element 2 , between the functional surface F2 of the wedge-shaped element 2 and the wing 10 each pivot bearing on. The relative position of the pivot bearing is chosen so that the axis of rotation of the bearing between the base 9 and the functional area 1 of the wedge-shaped element 1 , the axis of rotation of the bearing between the bearing surface 1 of the wedge-shaped element 1 and the storage area 2 of the wedge-shaped element 2 and the axis of rotation of the bearing between the functional surface F2 of the wedge-shaped element 2 and the wing 10 In this special case, for example, they intersect at one point (pole, rotating pole) of the functional surface.

Based on 5a to 5c it becomes apparent how the fall line (the one on the wing 10 drawn arrow) from the reference position at equal angles of α1 and α2 from the horizontal position between 90 ° and 180 ° with rotation of the wedge-shaped element 2 opposite the non-twisted wedge-shaped element 1 , emotional. With absolute rotation by 180 °, the fall line (the one on the wing 10 drawn arrow) by 90 ° so in each case by half the angular displacement of the wedge-shaped element 2 opposite wedge-shaped element 1 , If an alignment of the fall line (on the wing 10 drawn arrow) take place at a constant angle β1, so is the common rotation of the wedge-shaped element 1 and the wedge-shaped element 2 required. Here in the example ( 5c ) with a reverse rotation of -45 ° after the relative displacement ( 5b ) of + 90 ° of the wedge-shaped element 2 opposite to the wedge-shaped element 1 ,

The orientation of the 3-dimensionally dependent variable fall line (the one on the wing 10 drawn arrow) - the amount and direction of the relative displacement of the wedge-shaped element 2 opposite the wedge-shaped element 1 is clearly geometrically dependent - is required if the direction of the fall line (the one on the wing 10 drawn arrow) to meet certain requirements, for example, an angle gauge, in which the 3-dimensional device change for a 2-dimensional angle representation or an angle projection on a plane (2-dimensional) is required.

The in the 5a to 5c illustrated embodiment is particularly advantageous available, especially since the point referred to above as the pole or Drehpol quasi resting in all possible movements. This point can be advantageous Especially be used to attach devices at this point on the functional area, for example, for focusing devices, or target devices.

The Arrangement of the bearing must be with appropriate eccentricity to each other done so that this geometric requirement that all axes of rotation the axis intersections meet in one point, so that prevents is that the function level in addition to the desired skew generation additionally makes a staggering movement.

In the in the 6a to 6c In the embodiment shown, the arrangement of the bearings is selected such that the point designated above as pole or rotary pole is definitely outside and / or above the functional plane. This is particularly advantageous in those applications that require a dormant point above the functional level, for example, devices with resting as possible "focus" or target locations (targets) which are targeted by laser, which then from different directions by operating the device with appropriately mounted Aiming at this point (pole, rotating pole) as a target, (target object) Applications can be made, for example, in medical technology or energy technology The advantageously variably selectable arrangement of the pivot bearings can, depending on requirements, be at certain points in the device Tumbling movements of the functional level prevented or defined generated and / or performed.

The in the figures of the drawings illustrated embodiments are merely the explanation of the invention and are for these are not restrictive.

1

wedge-shaped element

2

wedge-shaped element

3

wedge-shaped element

4

wedge-shaped element

5

wedge-shaped element

6

wedge-shaped element

7

wedge-shaped element

8th

wedge-shaped element

9

Base / bottom

10

wing

11

Bearing (wing ( 10 )

F1

Functional surface (wedge-shaped element ( 1 ))

F2

Functional surface (wedge-shaped element ( 2 ))

F3

Functional surface (wedge-shaped element ( 3 ))

F4

Functional surface (wedge-shaped element ( 4 ))

F5

Functional surface (wedge-shaped element ( 5 ))

F6

Functional surface (wedge-shaped element ( 6 ))

F7

Functional surface (wedge-shaped element ( 7 ))

F8

Functional surface (wedge-shaped element ( 8th ))

G1

opposite side / surface (wedge-shaped element ( 1 ))

G2

opposite side / surface (wedge-shaped element ( 2 ))

G3

opposite side / surface (wedge-shaped element ( 3 ))

G4

opposite side / surface (wedge-shaped element ( 4 ))

G5

opposite side / surface (wedge-shaped element ( 5 ))

G6

opposite side / surface (wedge-shaped element ( 6 ))

G7

opposite side / surface (wedge-shaped element ( 7 ))

G8

opposite side / surface (wedge-shaped element ( 8th ))

L1

Bearing surface (wedge-shaped element ( 1 ))

L2

Bearing surface (wedge-shaped element ( 2 ))

L3

Bearing surface (wedge-shaped element ( 3 ))

L4

Bearing surface (wedge-shaped element ( 4 ))

α1

Angle (wedge-shaped element ( 1 ))

α2

Angle (wedge-shaped element ( 2 ))

α3

Angle (wedge-shaped element ( 3 ))

α4

Angle (wedge-shaped element ( 4 ))

α5

Angle (wedge-shaped element ( 5 ))

α6

Angle (wedge-shaped element ( 6 ))

α7

Angle (wedge-shaped element ( 7 ))

α8

Angle (wedge-shaped element ( 8th ))

β1

Angle (wedge-shaped element ( 1 ) and wedge-shaped element ( 2 ))

β2

Angle (wedge-shaped element ( 3 ) and wedge-shaped element ( 4 ))

β3

Angle (wedge-shaped elements ( 5 to 8th ))

γ

angle (right angle)

Claims (21)

Device for providing two functional surfaces (F1, F2, F3, F4, F5, F8), the position of which is adjustable relative to one another, having at least two wedge-shaped elements mounted on or resting on one another ( 1 . 2 ; 3 . 4 ; 5 . 6 . 7 8th ), each having at an acute angle (α1, α2, α3, α4, α5, α6, α7, α8) converging bearing surface (L1, L2, L3, L4) and functional surface (F1, F2, F3, F4, F5, F8 ), wherein the bearing surfaces (L1, L2, L3, L4) of the wedge-shaped elements ( 1 . 2 ; 3 . 4 ; 5 . 6 . 7 8th ) face each other, the functional surfaces (F1, F2, F3, F4, F5, F8) of the wedge-shaped elements ( 1 . 2 ; 3 . 4 ; 5 . 6 . 7 8th ) are facing away from each other and by relative rotation of the wedge-shaped elements ( 1 . 2 ; 3 . 4 ; 5 . 6 . 7 8th ) relative to each other the position of the functional surfaces (F1, F2, F3, F4, F5, F8) of the wedge-shaped elements ( 1 . 2 ; 3 . 4 ; 5 . 6 . 7 8th ) is adjustable to each other. Apparatus according to claim 1, characterized in that by relative rotation of the wedge-shaped elements ( 1 . 2 ; 3 . 4 ; 5 . 6 . 7 8th ) against the angle (β1, β2, β3) between the functional surfaces (F1, F2, F3, F4, F5, F8) of the wedge-shaped elements ( 1 . 2 ; 3 . 4 ; 5 . 6 . 7 8th ) is adjustable. Device according to claim 1 or claim 2, characterized in that the surface (G1; G2; G3; G4.) Opposite the tip formed by the convergent bearing surface (L1, L2; L3, L4) and functional surface (F1, F2; F3, F4) ) of a wedge-shaped element ( 1 ; 2 ; 3 ; 4 ) an angle (γ) of approximately 90 ° to the bearing surface (L1, L2, L3, L4) or the functional surface (F1, F2, F3, F4) of the wedge-shaped element ( 1 ; 2 ; 3 ; 4 ) having. Apparatus according to claim 3, characterized by at least one of a wedge-shaped Element with an angle of about 90 ° to the bearing surface and a wedge-shaped Element with an angle of about 90 ° to the functional surface existing pair wedge-shaped Elements. Device according to claim 4, characterized in that at least two pairs of wedge-shaped elements ( 5 . 6 ; 7 . 8th ) are mounted rotatably on or against each other, wherein the facing functional surfaces of the two pairs of wedge-shaped elements serve as bearing surfaces. Apparatus according to claim 3 to 5, characterized in that the angle (α1, α2, α3, α4, α5, α6, α7, α8) between the bearing surface (L1, L2, L3, L4) and the functional surface (F1, F2, F3, F4, F5, F8) of a wedge-shaped element ( 1 . 2 . 3 . 4 . 5 . 6 . 7 . 8th ) is about 9 °, about 18 ° and / or an integer multiple of about 9 ° and / or about 18 °. Device according to one of claims 1 to 6, characterized in that the functional surface (F1) of one of the wedge-shaped elements ( 1 . 3 . 5 ) on or on a base ( 9 ), preferably a base surface. Apparatus according to claim 7, characterized in that the functional surface (F1) rotatable on or on the base ( 9 ) is stored. Apparatus according to claim 7 or claim 8, characterized in that the functional surface (F8) of the free wedge-shaped element ( 8th ) a support, preferably for a wing ( 10 ). Device according to one of claims 1 to 9, characterized in that the wedge-shaped elements ( 1 . 2 . 3 . 4 . 5 . 6 . 7 . 8th ) are continuously rotated against each other. Device according to one of claims 1 to 10, characterized in that the wedge-shaped elements ( 1 . 2 . 3 . 4 . 5 . 6 . 7 . 8th ) are gradually rotated by defined angle to each other, preferably by angles of 1 ° to 15 °, more preferably by angular increments of 5 ° and / or 10 °. Device according to one of Claims 1 to 10, characterized by at least one measure of the position of the functional surfaces (F1, F2, F3, F4, F5, F8) of the wedge-shaped elements ( 1 . 2 . 3 . 4 . 5 . 6 . 7 . 8th ), preferably the angle (β1, β2, β3) between the functional surfaces (F1, F2, F3, F4, F5, F8) of the wedge-shaped elements ( 1 . 2 . 3 . 4 . 5 . 6 . 7 . 8th ), and / or the rotation of the wedge-shaped elements ( 1 . 2 . 3 . 4 . 5 . 6 . 7 . 8th ) mutually detecting and / or reproducing means. Apparatus according to claim 12, characterized in that the measure of the position of the functional surfaces (F1, F2, F3, F4, F5, F8) of the wedge-shaped elements ( 1 . 2 . 3 . 4 . 5 . 6 . 7 . 8th ) to each other and / or the rotation of the wedge-shaped elements ( 1 . 2 . 3 . 4 . 5 . 6 . 7 . 8th ) is mechanically and / or electronically detectable and / or reproducible against each other. Apparatus according to claim 12 or claim 13, characterized in that the means comprises a scaled display, particularly preferably from the tip of the convergent bearing surface (L1, L2, L3, L4) and functional surface (F1, F2; F3, F4, F5, F8) opposite surface (G1; G2; G3; G4; G5; G6; G7; G8) of at least one of the wedge-shaped elements (G1; 1 . 2 . 3 . 4 . 5 . 6 . 7 . 8th ). Device according to one of claims 1 to 14, characterized in that at least one pivot bearing between the wedge-shaped elements ( 1 . 2 . 3 . 4 . 5 . 6 . 7 . 8th ) and / or the wedge-shaped element ( 1 ) and the base ( 9 ) is fixable in one and / or in both directions of rotation. Device according to one of claims 1 to 15, characterized by at least one drive for rotating at least one wedge-shaped element ( 1 . 2 . 3 . 4 . 5 . 6 . 7 . 8th ) about its pivot bearing, preferably an electric, pneumatic and / or hydraulic drive. Apparatus according to claim 16, characterized in that the drive is a single and / or multi-stage transmission for sub and / or translation of rotational movements on the at least one wedge-shaped element ( 1 . 2 . 3 . 4 . 5 . 6 . 7 . 8th ). Device according to one of claims 1 to 17, characterized in that the rotation of the wedge-shaped elements ( 1 . 2 . 3 . 4 . 5 . 6 . 7 . 8th ) is controllable against each other, preferably by means of the at least one drive for rotating at least one wedge-shaped element ( 1 . 2 . 3 . 4 . 5 . 6 . 7 . 8th ) around its pivot bearing. Device according to one of claims 1 to 18, characterized that these as connection and / or construction element, preferably for plate and / or profile elements, is formed, including the free ends the functional surfaces (F1, F2, F3, F4, F5, F8) and / or in elements to be connected attachable, preferably detachable fastenable, have fastening means. Device according to one of claims 1 to 18, characterized that this is designed as a protractor, including the free ends the functional surfaces (F1, F2, F3, F4, F5, F8) each with a leg forming, extending substantially perpendicular to the functional surface extending profile element are provided. Device according to one of claims 1 to 20, characterized through pivot bearings between the wedge-shaped elements, the base and / or the wing, wherein the relative position of the pivot bearing is selected so that the axes of rotation The bearings intersect at about one point (pole, Drehpol) of the free functional surface.