DE8131855U1 - CIRCLE - Google Patents

Description

Bayerische Reisszeugfabrik GmbH, .8500 Nuremberg

Circle

The invention relates to a compass with the features listed in the preamble of claim 1.

Usually the draftsman uses a pair of compasses to take a certain dimension as the radius of one around the Needle leg from the circle to be struck and transfers this dimension or the circle to a drawing sheet. This The process of taking a measure down from a measure is time consuming and more demanding always the presence of a reference scale. The invention is based on the object of a circle of type mentioned at the outset with regard to its functional properties to improve or to make it more user-friendly. This task is carried out by the indicator of claim 1 solved.

Accordingly, when working with the compass according to the invention, the use of a reference scale is not necessary more required. The distance between the compass legs resulting from the respective angular position Needle point and working point, i.e. the respective Zir-

kelradius, can easily be read off numerically on the measuring display device. It should be noted that the dimensional accuracy requirements for lead drawings are usually relatively low and can fluctuate in the order of about + _ 0.2 mm without negative effects on the drawing accuracy. A higher accuracy can practically not be achieved in conventional working with a compass because of the need to scan from a scale. In contrast, the compass designed according to the invention allows greater dimensional accuracy. Such compasses, the working leg of which is provided with an ink pen or a fine line refill insert, are particularly suitable for the design according to the invention. The position of the tip of the drawing does not change even when working for a long time, while a conventionally designed tip consisting of a thick pencil lead wears out over time and has to be sanded again from time to time, which leads to a significant change in position actual working peak can be connected, but does not have to be.

By the characterizing feature of claim 2 is located the measurement display field is in the area of the compass closest to the eye of the draftsman, which is easier to read serves, while by the characterizing feature of claim 3, the measurement display field that one Associated with compass leg, on which the distance adjustment to the needle tip is made.

The characterizing features of claim 4 enable a comparatively large area and thus easy to read Formation of the measurement display field.

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By the characteristic of claim 5, it is possible, the measurement display value not constant on the position of the To refer to the tip of the needle leg so that it always shows the distance of the nominal position of the tip of the working leg from the tip of the needle leg.

Rather, it enables the zeroing button, the measurement display in any position of the working leg or its tip to "zero", i.e. to zero, starting from this position the tip of the working leg to be able to set a desired value appearing in the measurement display field.

Experience has shown that many drawings are in a particular Made to scale up or down. To do this - if simple, so at least The draftsman usually makes use of such conversions to avoid still time-consuming conversion work special rulers with a measuring scale already in the desired enlargement or reduction scale is implemented. The microelectronics used for digital measurement display devices make this possible now, in a simple manner, a further development of the subject matter of the invention in the form of the identification feature of claim 6. By simply pressing the scale change key, the measurement display can a desired enlargement or reduction amount can be set. The measuring display then shows no longer the absolute distance of the working tip of the working leg from its respective zero position but multiply or divide this distance by the set reduction or enlargement ratio at.

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The characterizing feature of claim 7, the counter and the measuring display of the digital measuring device The object of a uniform component, which serves the safety of operation and damage, e.g. prevents when transporting the circle.

Due to the characterizing feature of claim 8, the glass or film scale with a relatively coarse line grids are provided, which protect against, for example, pollution-related inaccuracy influences is largely insensitive.

The subject matter of the invention is explained in more detail with reference to the exemplary embodiments shown in the figures. Show it:

1 shows a sub-compass designed as a rapid adjustment compass with the measuring display device according to the invention.
2 shows a compass and

3 shows a compass with parallel guidance of the ends of the two legs of the compass.

The compass shown in Fig. 1 contains a needle leg 1 with the needle point 2 and a working leg 3 with the working point 4. Needle leg 1 and working legs 3 are in the compass head 5 around an axis perpendicular to the plane of the drawing pivoted. Between the two ends of the needle leg 1 and the working leg on the side of the compass head 3, a straight line can be provided, which ensures that the legs 1,3 in an equally large spread angle 6 to the central axis 7 of the fixedly connected to the compass head 5 Work handle 8 are.

In the case of Fig. 1, the compass is a quick-adjustment sub-compass educated. The part 11 of the adjusting spindle that extends on the one hand of the adjusting wheel 10 9 is provided with a thread which corresponds to the thread of the other part 12 of the adjusting spindle 9 is opposite. Both parts 11, 12 of the adjusting spindle 9 engage in corresponding spindle nuts (not shown) a, which are attached to the legs 1,3. The nut engagement can be achieved by pressing the Hebei 13,14 are canceled, which are assigned to the legs 1,3. The adjusting wheel 10 is rotatable in However, the axial direction of the adjusting spindle 9 cannot be displaced within that which is introduced into the compass head Slot 15 out. Normally, the angle of spread 6 of the legs 1.3 can only be achieved by turning the Change the adjusting wheel around the axis of the adjusting spindle 9, i.e. enlarge or reduce it. By pressing However, the lever 13, 14 can be the nut engagement of the legs 1, 3 in the adjusting spindle 9 cancel with the result that the angle of spread 6 by manual direct spreading of the legs 1,3 can be changed quickly by a large amount.

Inside the compass head 5 is a digital measuring display device, denoted as a whole by 16, indicating the length of a displacement angle of the working tip 4, the measuring display field 17 of which lies in a plane parallel to the plane of movement of the compass legs 1,3 or in this plane of movement itself. A computer (one-chip computer) is built in, which converts the angle function sin ψ ⁼ S— into a linear output (display). The measurement display device 16 is provided with a zeroing key 18.

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In addition, the compass head 5 entered a scale change key 19, by means of which the scale shown numerically in the scale display field 20 can be changed.

The needle leg 21 of the compass according to FIG. 2 is permanently connected or can be connected to the rod 22. It runs approximately at right angles to the rod 22. On the rod 22, the working leg 23 is mounted so as to be longitudinally displaceable in the longitudinal direction 24 of the rod. To facilitate- The guide part 25 of the working leg 23 with a knurled wheel 26 is a fine longitudinal displacement provided, which with the lower part of its circumference by in the direction of arrow 27 at right angles to the longitudinal direction of the rod 24 effective spring pressure against the upper edge 28 of the rod 22 is pressed. The leadership part 25 carries the measurement display field 17 and the scale display field 20 as well as the zeroing key 18 and the scale change key 19th

p _he circle head 5 of the circle shown in Fig. 3 is formed of the circle 5 shown in Fig. 1 corresponding to the circle head. The working limb 3 and the needle limb 1 are, however, pivotably mounted on the expansion limbs? . The working leg 3 is longitudinally displaceable on the boom 33 and can be locked in the working leg 3 by means of a knurled screw 35 so that a parallel position between the working leg 3 and needle leg 1 is always guaranteed, regardless of the spread angle 6 the spreading legs 29,30 are to the center axis of the compass.

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The lower ends 36,37 of needle legs 1 and Working legs 3 ″ can be pivoted in a known manner about axes 38, 39 running perpendicular to the plane of the drawing, the axes being formed by screws such that the ends 36,37 in any desired Pivot position relative to the legs 1.3 stop.

If the mode of operation of the measuring display device is not explained in detail using an exemplary embodiment is, this is based on the fact that incremental measuring devices are generally used in machine tool and tool making have been known for a long time. In such incremental measuring devices takes place the length or distance measurement by electronic or optical counting on a glass or foil scale arranged tick marks. The glass or foil scale is with the one and the electronic one Counting device connected to the other part of two parts that can be moved relative to one another, if the measuring device is to measure and display the displacement between these two parts.

Bayerische Reisszeugfabrik GmbH, 8500 Nuremberg

summary

A pair of compasses with a needle leg (1) and a working leg (3) that can be adjusted relative to this is with a digital one indicating the length of a displacement path of the tip (4) of the working leg (3) Measurement display device (16) provided.

Fig. 1

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Bayerische Reisszeugfabrik, 8500 Nuremberg Item number list

1 needle leg

2 needle point

3 working legs

4 working peak

5 compass head

6 angles of spread

7 central axis

8 working handle

9 adjusting spindle

10 adjustment wheel

11 part

12 part

13 levers

14 levers

15 slot

16 Measurement display device

17 Measurement display field

18 Zeroing key

19 Scale change button

20 Scale display field

21 needle legs

22 rod

23 working legs

24 lengthways direction of the rod

25 guide part

26 knurled wheel

27 Direction of arrow 36 Lower end

28 Top edge 37 Bottom end

29 spreader leg 38 axis

30 spreader legs 39 axis

31 axis

32 axis

33 angles

34 boom

35 knurled screw

Claims (8)

Bayerische Reisszeugfabrik GmbH, 8500 Nuremberg claims 1. Compass with a needle leg (1.21) and a working leg that can be adjusted relative to this (3.23) marked by a digital one indicating the length of a displacement path of the tip (4) of the working leg (3, 23) Measurement display device (16). 2. Compass according to claim 1, characterized, that the measuring display device (16) is arranged in the compass head (5) which supports the compass legs (1,3) is. 3. Compasses with parallel legs (1.21; 3.23), in particular bar compasses, characterized, that the measuring display device (16) on the working leg (23), in particular on the guide part (25) of the working leg (23) is arranged. Il fl Hfl · Il With IMI I II «» »··« ■ I Il I I 14 III IM ■ I «··. · I I lllll · ·· · t 4. Compass according to one or more of the preceding claims, characterized, that the measurement display field (17) runs in a plane parallel to the plane of movement of the compass legs (1.21; 3.23) Level or in the plane of movement itself. 5. Compass according to one or more of the preceding claims, characterized, that the measuring display device (16) is provided with a zeroing button (18). 6. Compass according to one or more of the preceding claims, characterized, that the measuring display field (17) with a scale display (20) and the measuring display device (16) are provided with a scale change key (19). 7. Compass according to one or more of the preceding claims, characterized, that the glass or foil scale of the incremental counter on the needle leg (1.21) or on one with the needle leg (1,21) firmly connected part is arranged, while the counter of the counting device is connected to the working leg (3.23). 8. Bar circle according to one or more of the preceding Expectations, characterized, that the glass or foil scale of the incremental counting device is on the sliding rod (22 resp. 33) is arranged.