DE20006430U1 - Angle measuring device - Google Patents

Description

Angle measuring tool

The invention relates to an angle measuring tool according to the preamble of claim 1.

Angle measuring instruments are used, for example, to measure, mark out and check angles in wood processing. According to the publication "Holztechnik Fachkunde; Verlag Europa-Lehrmittel; 15th edition; 1995; p. 281", angles of 90° are measured using a precision square with a stop and a tongue, while fixed angles of 45° are measured using a so-called miter gauge. A so-called bevel gauge is used to measure, transfer and mark out angles of any size, in which the tongue is designed to be movable relative to the fixed support leg. Conventional angle gauges with a degree scale from 0 to 180° are used to measure any angle.

To carry out the tasks described above: measuring, marking, checking, taking measurements, transferring specified angles, a carpenter's tool kit must therefore contain four different tools:

Precision angle,
Precision mitre dimension,
Precision bevel and
Angle meter

These angle measuring instruments are comparatively expensive and require a considerable amount of storage space.

In contrast, the invention is based on the object of creating an angle measuring tool that, with minimal device

[File:ANM\OT0708B1 .doc] Description, 12.04.00 Angle measuring instrument

Georg Ott tool and machine factory GmbH & Co.

This allows measuring, marking and checking angles without any technical effort.

This object is achieved by an angle measuring tool having the features of claim 1.

According to the invention, the angle measuring tool is provided with an angle scale and a locking device, via which a movable measuring leg (measuring tongue) can be set at predetermined angles to a fixed contact leg. This means that the angle between the measuring leg and the contact leg can be precisely specified using this locking device, so that the angle measuring tool according to the invention takes on the tasks of the precision angle and the precision miter measurement through the variable presetting. Since the locking device enables the two legs to be locked at practically any angle, the angle measuring tool also allows any angle to be picked up and read off via the integrated angle scale, so that the angle measuring tool according to the invention also fulfills the tasks of the precision bevel and the angle meter.

According to the invention, it is thus possible to replace four conventional tools with a single angle measuring tool, thus providing an inexpensive and space-saving solution that enables precise testing, acceptance and measurement of angles.

In a particularly preferred embodiment, the locking device is designed with a rotating body that is connected to the measuring leg in a rotationally fixed manner and on which a plurality of locking recesses are formed, into which a slide guided on the fixed contact leg engages. Of course, in a kinematic reversal, the slide could also be rotatably mounted and the locking recesses could be formed in a stationary manner on the contact leg.

[File:ANM\OT0708B1.doc] Description, 12.04.00 Angle measuring instrument Georg Ott Werkzeug- und Maschinenfabrik GmbH & Co.

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It is particularly advantageous if the rotating body has a guide along which the movable measuring leg can be moved so that its contact length can be changed.
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This guide can, for example, be a guide plate with a guide projection extending in the radial direction with respect to the rotating body, which extends into a guide recess in the measuring leg. The precision of the longitudinal guide is determined by the corresponding length of the contact area between the guide projection and the guide recess. ;

The locking recesses are preferably distributed on the outer circumference of the rotary body, so that the slide guided in the contact leg is arranged in the radial direction to the rotary body and is pre-tensioned into its engagement position by a compression spring. A pitch angle of 22.5° between locking recesses has proven to be particularly suitable, so that the frequently used dimensions 45°, 90°, etc. can be easily set.

In a preferred embodiment, the slider which interacts with the locking recesses is guided in a longitudinal groove of the contact leg which is covered by a cover plate. This cover plate has a recess through which an actuating element for the slider passes.

In order to be able to use the mitre gauge as a ruler, the support leg is provided with a guide slot into which the free end section of the measuring leg can be inserted, so that the measuring leg extends in extension of the support leg.

The fixation of the relative position between the measuring leg and the contact leg is preferably carried out in addition or as

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[File:ANM\OT0708B1 .doc] Description, 12.04.00 Angle measuring instrument

Georg Ott tool and machine factory GmbH & Co.

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Alternatively to the locking device, there is a clamp by which the two legs can be fixed in any angular position.

In a particularly preferred embodiment, the contact leg is designed as a profile body with a flat contact, while the measuring leg is designed as a rail, preferably made of steel.

The two adjacent inner edges of the legs are advantageously provided with a scale.

Other advantageous developments of the invention are the subject of the further subclaims.

In the following, a preferred embodiment of the invention is explained in more detail using schematic drawings. They show:
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Figure 1 is a schematic plan view of an angle measuring tool according to the invention;

Figure 2 is a schematic side view of the angle measuring tool from Figure 2;

Figures 3, 4, 5 are views of a contact leg of the angle measuring tool from Figure 1;

Figures 6, 7, 8 views of a rotating body of the angle measuring instrument from Figure 1;

Figure 9 shows a measuring leg of the angle measuring instrument from Figure 1;
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Figure 10 shows a slider for locking the measuring leg from Figure 9;

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[File:ANM\OT0708B1.doc] Description, 12.04.00

Angle measuring tool

Georg Ott tool and machine factory GmbH & Co.

Figure 11 an angle scale of the angle measuring tool from Figure 1 and

Figure 12 shows a cover plate for the system handle according to Figures 3 to 5.

Figures 1 and 2 show an angle measuring device 1 according to the invention, whereby invisible lines are also drawn in for the sake of better comprehensibility. The angle measuring device 1 is also called a "multi-angle" due to its versatility and has a fixed stop or contact leg 2 to which a movable and rotatable measuring leg 4 - also called a tongue - is attached.

The connection between the two legs 2, 4 is made via a locking device 6, which is assigned a locking element 8 for fixing the relative position of the legs 2 and 4. In the embodiment shown, the locking element is formed by a clamp, with a clamping screw 10 passing through the two legs 2, 4 and a clamping nut 12 being placed on the free end section protruding towards the viewer in Figure 1. To prevent twisting, the clamping screw 10 is designed as a press-in screw, which is pressed into the contact leg 2 with its left end section in Figure 2.

The locking device 6, which is described in more detail below, has a rotating body 14, on the outer circumferential surface of which a plurality of locking recesses 16 are formed. Since this rotating body 14 is not actually visible in the illustration according to Figure 1, the reference lines of the locking recess 16 and the rotating body are indicated there in dashed lines. The rotating body 14 has a guide plate 20 extending in the direction of the measuring leg 4, on the rear side of which, according to Figure 1, faces away from the viewer, a guide

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[File:ANM\OT0708B1.doc] Description, 12.04.00 Angle measuring instrument Georg Ott Werkzeug- und Maschinenfabrik GmbH & Co.

projection 18 is formed which engages in a guide recess 23 of the measuring leg 4, which is made as a longitudinal slot, so that the latter can be displaced in a linear direction along the guide projection 20. A circular plate with a measuring scale 22 is placed on the rotating body 14, on which the swivel angle of the measuring leg 4 with respect to the contact leg 2 can be read.

For the precise setting of predetermined angular positions, a slide 24 is attached to the contact leg 2, which is pre-tensioned by a compression spring 26 in the direction of the rotating body 14 so that it can engage in one of the locking recesses 16 with the end section remote from the compression spring 26. To actuate the slide 24, this has a ball screw 28, the mushroom-shaped head of which sits on the large surface of the contact leg 2 visible in Figure 1. The slide 24 itself is guided in a guide groove 30 which is covered by a cover plate 32, so that in the view according to Figure 1 only the mushroom-shaped head of the ball screw 28 sliding on the cover plate 32 is visible. The ball screw 28 can then be used to move the slide 24 away from the rotating body 14 and out of the locking recess 16 against the force of the compression spring 26, so that the measuring leg 4 can be rotated. After the slider 24 is released, it snaps into the next associated locking recess 16 due to the pre-tension, so that a predetermined angular position of the legs 2, 4 is set. Measuring scales 34 are formed on the inner longitudinal edges of the contact leg 2 and the measuring leg 4.

According to Figures 1 and 2, the contact leg 2 has an inner slot 36, the front surface 38 of which is set at approximately 45°. This inner slot 36 makes it possible to pivot and move the measuring leg 4 in such a way that its beveled end section 41 dips into this inner slot 36 and the measuring leg 4 runs in extension of the contact leg 2, that is, in this case

[File:ANM\OT0708B1 .doc] Description, 12.04.00 Angle measuring instrument Georg Ott Werkzeug- und Maschinenfabrik GmbH & Co.

the swivel angle between the two legs 2, 4 is zero. The individual parts of the multi-angle 1 described above are described below.

Figures 3 to 5 show a front view, a side view and a rear view of the contact leg 2 of the multi-angle 1. This contact leg 2 is made as a profile body, for example from aluminum, wherein the end section at the top in Figures 3 to 5 is rounded in a semicircle.

In the large area of the stop leg 2 visible in Figure 3, a recess 40 is formed, into which the cover plate 32 can be inserted flush. The guide groove 30 for guiding the slide 24 is arranged in the base of the recess 40. This guide groove 30 opens into a semicircular front surface 42, over which the stop leg 2 is stepped back to a support plate 44 at the rounded end section. The front surface 42 and the support plate 44 together form a receptacle for the rotating body 14.

The inner slot 36 with the inclined front surface 42 extends into the receiving leg 2 as an extension of the large surface of the support plate 44 visible in Figure 3.

On the rear side of the measuring leg 2 shown in Figure 5, a recess 45 is provided for inserting a further cover plate 32 (not shown). These cover plates can be provided with the company logo of the multi-angle manufacturer as shown in Figure 1.

In the area of the support plate 44, a bearing bore 46 is formed in the center, into which the clamping screw 10 can be pressed.

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[File:ANM\OT0708B1.doc] Description, 12.04.00 ··· ·* **

Angle measuring tool

Georg Ott tool and machine factory GmbH & Co.

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Figures 6 to 8 show a front view, a side view and a rear view of the rotary body 14, via which the measuring leg 4 is attached to the above-described contact leg 2. Accordingly, the rotary body 14 has a base plate 48 with an approximately circular end section, from which the aforementioned guide plate 20 extends in the radial direction. The radius of the circular part of the base plate 48 corresponds to that of the end face 42, so that this end section can be inserted into the receptacle formed by the support plate 44 and the end face 42 of the contact leg 2.

On the large surface of the base plate 48 facing the viewer in Figure 6, a locking body 50 is formed, on the peripheral surface of which the locking recesses 16 are distributed. In the embodiment shown, these locking recesses 16 are approximately wedge-shaped or trapezoidal. The pitch angle α between two adjacent locking recesses 16 is 22.5°, so that a total of 16 locking recesses are distributed on the outer circumference of the locking body 50. This division makes it possible to set the most frequently required basic settings, for example 45° and 90°, in a simple manner and with extreme precision.

The guide projection 18 for guiding the measuring leg 4 shown in Figure 9 is formed on the rear side of the base plate 48, which is visible in Figure 8. The height of the guide projection 18 is selected to be less than the thickness of the measuring leg 4. This guide projection 18 extends from a through hole 52 through which the clamping screw 10 passes to the free end section of the guide plate 20 located at the bottom in Figure 7, so that the length of the guide projection 18 is sufficient to ensure exact linear guidance of the measuring leg 4.

The effective length of the measuring leg 4 can be changed after releasing the clamp by moving the measuring leg 4 along the guide projection 18.

[File:ANM\OT0708B1.docJ . Description, 12.04.00 Angle measuring instrument Georg Ott Werkzeug- und Maschinenfabrik GmbH & Co.

According to Figure 9, the end section of the measuring leg 4 which is remote from the inclined surface 41 is rounded, with the radius of curvature corresponding to that of the support plate 44. The guide recess 23 which passes through the measuring leg 4 and the guide projection 18 are designed with a sliding fit. In the embodiment shown, the measuring leg 4 is made as a steel rail. . :

Figure 10 shows a top view of the slide 24 guided in the guide groove 30. As already mentioned, this is tapered at its end section facing the locking body 50 in accordance with the geometry of the locking recess 16, so that a defined engagement position is guaranteed for determining the rotational position. In the embodiment shown, an approximately trapezoidal end section with wedge-shaped tapered side surfaces 54 was selected. According to Figure 10, the slide 24 also has a threaded bore 56 into which the ball screw 28 can be inserted.

As already mentioned above, the guide groove 30 is covered by the cover plate 32 shown in detail in Figure 12, which is inserted into the recess 40 of the contact leg 2. The cover plate 32 has an elongated hole 58 in the area of the slide 24, through which the bolt of the ball screw 28 passes, so that the slide 24 can be moved out of the engagement position with the locking body 50 via the ball screw 28.

Finally, Figure 11 shows the plate provided with the angle scale 22, which is screwed onto the rotating body 14. This angle scale 22 interacts with a fixed marking on the contact leg 2, so that the angular position of the measuring leg 4 can be read with reference to the contact leg 2.

[File.ANMVOT0708B1.doc] Description, 12.04.00 Angle measuring instrument Georg Ott Werkzeug- und Maschinenfabrik GmbH & Co.

To assemble the multi-angle 1, the clamping screw 10 is inserted into the contact leg 2, then the measuring leg 4 with the rotating body 14 is placed on top and the slider 24 with the compression spring 26 is inserted into the guide groove 30. The angle scale 22 is screwed onto the rotating body 14 and then the measuring leg 4 and the contact leg 2 are fixed by screwing on the clamping nut 12. The slider 24 is secured by placing the cover plate 32 on top and screwing in the ball screw 28. The multi-angle 1 is ready for use.

To use it as a precision square or precision miter gauge, the clamp is released and the predetermined angle (90° or 45°) is set between the legs 2, 4, with the slider 24 being moved out of its engagement position via the ball screw 28. After setting the predetermined angle, the slider 24 is allowed to snap back into its engagement position so that an exact angle setting is achieved due to the flat contact of the side surfaces 54 in the locking recess 16. This angle setting can then be fixed by tightening the clamping nut 12.

To remove angles, the clamp is also released and the slider 24 is moved out of its engagement position and then the angle is removed by turning the legs 2 and 4. If this removed angle does not correspond to an angle specified by the locking recesses, the measuring leg 4 can also be locked in intermediate positions by tightening the clamping nut 12, so that practically any angle can be removed and read off the measuring scale 22 - the multi-tool then fulfills the task of a precision bevel or a protractor.
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The above-described example should only explain the design concept of the new Multiwin

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[File:ANM\OT0708B1 .doc] Description, 12.04.00 Angle measuring instrument Georg Ott Werkzeug- und Maschinenfabrik GmbH & Co.

kel. Of course, the locking in the different angular positions can also be done using other locking or other engagement elements, such as a ball lock or similar. It is important that the angles can be set in any angular position and that the most commonly used angles (90°, 45°) are specified by suitable engagement elements.

Claims (12)

1. Angle measuring tool for measuring or checking angles, in particular in wood processing, with a fixed contact leg ( 2 ) which is connected to a movable measuring leg ( 4 ) via a locking element ( 8 ), characterized by an angle scale ( 22 ) connected to the contact leg ( 2 ) and a locking device ( 6 ) via which predetermined angles between the contact leg ( 2 ) and the measuring leg ( 4 ) can be set in a defined manner. 2. Angle measuring tool according to claim 1, wherein the locking device ( 6 ) has a rotating body ( 14 ) connected in a rotationally fixed manner to the measuring leg ( 4 ) and having a plurality of locking recesses ( 16 ) which can be brought into engagement with a slider ( 24 ). 3. Angle measuring tool according to claim 2, wherein the rotating body ( 14 ) has a guide ( 18 , 20 ) along which the measuring leg ( 4 ) is displaceable. 4. Angle measuring tool according to claim 3, wherein the guide has a guide plate ( 20 ) with a guide projection ( 18 ) extending radially to the rotary body ( 14 ) and engaging in a guide recess ( 23 ) of the measuring leg ( 4 ). 5. Angle measuring tool according to one of claims 2 to 4, wherein the locking recesses ( 16 ) are distributed on the outer circumference of the rotary body ( 14 ) and the slide ( 24 ) is guided in the contact leg ( 2 ) and is prestressed into its engagement position via a compression spring ( 26 ). 6. Angle measuring tool according to claim 4 or 5, wherein the pitch angle (α) between two adjacent locking recesses is 22.5°. 7. Angle measuring tool according to claim 5 or 6, wherein the guide groove ( 30 ) is covered by a cover plate ( 32 ) which in turn is penetrated by an actuating element ( 28 ) for the slide ( 24 ). 8. Angle measuring tool according to one of the preceding claims, wherein the contact leg ( 2 ) has an inner slot ( 36 ) into which the free end portion ( 41 ) of the measuring leg ( 4 ) can dip. 9. Angle measuring tool according to one of the preceding claims, wherein the locking device is a clamp with a clamping screw ( 10 ) passing through the contact leg ( 2 ) and the measuring leg ( 4 ) and a clamping nut ( 12 ), by means of which the legs ( 2 , 4 ) can be fixed in any angular position relative to one another. 10. Angle measuring tool according to one of the preceding claims, wherein the measuring leg ( 4 ) is a rail and the contact leg ( 2 ) is a profile body. 11. Angle measuring tool according to claim 10, wherein the profile body ( 3 ) is made of light metal or wood and the measuring leg ( 4 ) is made of steel. 12. Angle measuring tool according to one of the preceding claims, wherein the adjacent inner edges of the legs ( 2 , 4 ) each carry a scale ( 34 ).